1b2e60773SJohn Baldwin /*- 2b2e60773SJohn Baldwin * SPDX-License-Identifier: BSD-2-Clause 3b2e60773SJohn Baldwin * 4b2e60773SJohn Baldwin * Copyright (c) 2014-2019 Netflix Inc. 5b2e60773SJohn Baldwin * 6b2e60773SJohn Baldwin * Redistribution and use in source and binary forms, with or without 7b2e60773SJohn Baldwin * modification, are permitted provided that the following conditions 8b2e60773SJohn Baldwin * are met: 9b2e60773SJohn Baldwin * 1. Redistributions of source code must retain the above copyright 10b2e60773SJohn Baldwin * notice, this list of conditions and the following disclaimer. 11b2e60773SJohn Baldwin * 2. Redistributions in binary form must reproduce the above copyright 12b2e60773SJohn Baldwin * notice, this list of conditions and the following disclaimer in the 13b2e60773SJohn Baldwin * documentation and/or other materials provided with the distribution. 14b2e60773SJohn Baldwin * 15b2e60773SJohn Baldwin * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 16b2e60773SJohn Baldwin * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 17b2e60773SJohn Baldwin * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 18b2e60773SJohn Baldwin * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 19b2e60773SJohn Baldwin * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 20b2e60773SJohn Baldwin * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 21b2e60773SJohn Baldwin * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 22b2e60773SJohn Baldwin * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 23b2e60773SJohn Baldwin * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 24b2e60773SJohn Baldwin * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 25b2e60773SJohn Baldwin * SUCH DAMAGE. 26b2e60773SJohn Baldwin */ 27b2e60773SJohn Baldwin 28b2e60773SJohn Baldwin #include <sys/cdefs.h> 29b2e60773SJohn Baldwin __FBSDID("$FreeBSD$"); 30b2e60773SJohn Baldwin 31b2e60773SJohn Baldwin #include "opt_inet.h" 32b2e60773SJohn Baldwin #include "opt_inet6.h" 33b2e60773SJohn Baldwin #include "opt_rss.h" 34b2e60773SJohn Baldwin 35b2e60773SJohn Baldwin #include <sys/param.h> 36b2e60773SJohn Baldwin #include <sys/kernel.h> 37b2e60773SJohn Baldwin #include <sys/ktls.h> 38b2e60773SJohn Baldwin #include <sys/lock.h> 39b2e60773SJohn Baldwin #include <sys/mbuf.h> 40b2e60773SJohn Baldwin #include <sys/mutex.h> 41b2e60773SJohn Baldwin #include <sys/rmlock.h> 42b2e60773SJohn Baldwin #include <sys/proc.h> 43b2e60773SJohn Baldwin #include <sys/protosw.h> 44b2e60773SJohn Baldwin #include <sys/refcount.h> 45b2e60773SJohn Baldwin #include <sys/smp.h> 46b2e60773SJohn Baldwin #include <sys/socket.h> 47b2e60773SJohn Baldwin #include <sys/socketvar.h> 48b2e60773SJohn Baldwin #include <sys/sysctl.h> 49b2e60773SJohn Baldwin #include <sys/taskqueue.h> 50b2e60773SJohn Baldwin #include <sys/kthread.h> 51b2e60773SJohn Baldwin #include <sys/uio.h> 52b2e60773SJohn Baldwin #include <sys/vmmeter.h> 53b2e60773SJohn Baldwin #if defined(__aarch64__) || defined(__amd64__) || defined(__i386__) 54b2e60773SJohn Baldwin #include <machine/pcb.h> 55b2e60773SJohn Baldwin #endif 56b2e60773SJohn Baldwin #include <machine/vmparam.h> 57b2e60773SJohn Baldwin #ifdef RSS 58b2e60773SJohn Baldwin #include <net/netisr.h> 59b2e60773SJohn Baldwin #include <net/rss_config.h> 60b2e60773SJohn Baldwin #endif 61b2e60773SJohn Baldwin #if defined(INET) || defined(INET6) 62b2e60773SJohn Baldwin #include <netinet/in.h> 63b2e60773SJohn Baldwin #include <netinet/in_pcb.h> 64b2e60773SJohn Baldwin #endif 65b2e60773SJohn Baldwin #include <netinet/tcp_var.h> 66*9e14430dSJohn Baldwin #ifdef TCP_OFFLOAD 67*9e14430dSJohn Baldwin #include <netinet/tcp_offload.h> 68*9e14430dSJohn Baldwin #endif 69b2e60773SJohn Baldwin #include <opencrypto/xform.h> 70b2e60773SJohn Baldwin #include <vm/uma_dbg.h> 71b2e60773SJohn Baldwin #include <vm/vm.h> 72b2e60773SJohn Baldwin #include <vm/vm_pageout.h> 73b2e60773SJohn Baldwin #include <vm/vm_page.h> 74b2e60773SJohn Baldwin 75b2e60773SJohn Baldwin struct ktls_wq { 76b2e60773SJohn Baldwin struct mtx mtx; 77b2e60773SJohn Baldwin STAILQ_HEAD(, mbuf_ext_pgs) head; 78b2e60773SJohn Baldwin bool running; 79b2e60773SJohn Baldwin } __aligned(CACHE_LINE_SIZE); 80b2e60773SJohn Baldwin 81b2e60773SJohn Baldwin static struct ktls_wq *ktls_wq; 82b2e60773SJohn Baldwin static struct proc *ktls_proc; 83b2e60773SJohn Baldwin LIST_HEAD(, ktls_crypto_backend) ktls_backends; 84b2e60773SJohn Baldwin static struct rmlock ktls_backends_lock; 85b2e60773SJohn Baldwin static uma_zone_t ktls_session_zone; 86b2e60773SJohn Baldwin static uint16_t ktls_cpuid_lookup[MAXCPU]; 87b2e60773SJohn Baldwin 88b2e60773SJohn Baldwin SYSCTL_NODE(_kern_ipc, OID_AUTO, tls, CTLFLAG_RW, 0, 89b2e60773SJohn Baldwin "Kernel TLS offload"); 90b2e60773SJohn Baldwin SYSCTL_NODE(_kern_ipc_tls, OID_AUTO, stats, CTLFLAG_RW, 0, 91b2e60773SJohn Baldwin "Kernel TLS offload stats"); 92b2e60773SJohn Baldwin 93b2e60773SJohn Baldwin static int ktls_allow_unload; 94b2e60773SJohn Baldwin SYSCTL_INT(_kern_ipc_tls, OID_AUTO, allow_unload, CTLFLAG_RDTUN, 95b2e60773SJohn Baldwin &ktls_allow_unload, 0, "Allow software crypto modules to unload"); 96b2e60773SJohn Baldwin 97b2e60773SJohn Baldwin #ifdef RSS 98b2e60773SJohn Baldwin static int ktls_bind_threads = 1; 99b2e60773SJohn Baldwin #else 100b2e60773SJohn Baldwin static int ktls_bind_threads; 101b2e60773SJohn Baldwin #endif 102b2e60773SJohn Baldwin SYSCTL_INT(_kern_ipc_tls, OID_AUTO, bind_threads, CTLFLAG_RDTUN, 103b2e60773SJohn Baldwin &ktls_bind_threads, 0, 104b2e60773SJohn Baldwin "Bind crypto threads to cores or domains at boot"); 105b2e60773SJohn Baldwin 106b2e60773SJohn Baldwin static u_int ktls_maxlen = 16384; 107b2e60773SJohn Baldwin SYSCTL_UINT(_kern_ipc_tls, OID_AUTO, maxlen, CTLFLAG_RWTUN, 108b2e60773SJohn Baldwin &ktls_maxlen, 0, "Maximum TLS record size"); 109b2e60773SJohn Baldwin 110b2e60773SJohn Baldwin static int ktls_number_threads; 111b2e60773SJohn Baldwin SYSCTL_INT(_kern_ipc_tls_stats, OID_AUTO, threads, CTLFLAG_RD, 112b2e60773SJohn Baldwin &ktls_number_threads, 0, 113b2e60773SJohn Baldwin "Number of TLS threads in thread-pool"); 114b2e60773SJohn Baldwin 115b2e60773SJohn Baldwin static bool ktls_offload_enable; 116b2e60773SJohn Baldwin SYSCTL_BOOL(_kern_ipc_tls, OID_AUTO, enable, CTLFLAG_RW, 117b2e60773SJohn Baldwin &ktls_offload_enable, 0, 118b2e60773SJohn Baldwin "Enable support for kernel TLS offload"); 119b2e60773SJohn Baldwin 120b2e60773SJohn Baldwin static bool ktls_cbc_enable = true; 121b2e60773SJohn Baldwin SYSCTL_BOOL(_kern_ipc_tls, OID_AUTO, cbc_enable, CTLFLAG_RW, 122b2e60773SJohn Baldwin &ktls_cbc_enable, 1, 123b2e60773SJohn Baldwin "Enable Support of AES-CBC crypto for kernel TLS"); 124b2e60773SJohn Baldwin 125b2e60773SJohn Baldwin static counter_u64_t ktls_tasks_active; 126b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls, OID_AUTO, tasks_active, CTLFLAG_RD, 127b2e60773SJohn Baldwin &ktls_tasks_active, "Number of active tasks"); 128b2e60773SJohn Baldwin 129b2e60773SJohn Baldwin static counter_u64_t ktls_cnt_on; 130b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, so_inqueue, CTLFLAG_RD, 131b2e60773SJohn Baldwin &ktls_cnt_on, "Number of TLS records in queue to tasks for SW crypto"); 132b2e60773SJohn Baldwin 133b2e60773SJohn Baldwin static counter_u64_t ktls_offload_total; 134b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, offload_total, 135b2e60773SJohn Baldwin CTLFLAG_RD, &ktls_offload_total, 136b2e60773SJohn Baldwin "Total successful TLS setups (parameters set)"); 137b2e60773SJohn Baldwin 138b2e60773SJohn Baldwin static counter_u64_t ktls_offload_enable_calls; 139b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, enable_calls, 140b2e60773SJohn Baldwin CTLFLAG_RD, &ktls_offload_enable_calls, 141b2e60773SJohn Baldwin "Total number of TLS enable calls made"); 142b2e60773SJohn Baldwin 143b2e60773SJohn Baldwin static counter_u64_t ktls_offload_active; 144b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, active, CTLFLAG_RD, 145b2e60773SJohn Baldwin &ktls_offload_active, "Total Active TLS sessions"); 146b2e60773SJohn Baldwin 147b2e60773SJohn Baldwin static counter_u64_t ktls_offload_failed_crypto; 148b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, failed_crypto, CTLFLAG_RD, 149b2e60773SJohn Baldwin &ktls_offload_failed_crypto, "Total TLS crypto failures"); 150b2e60773SJohn Baldwin 151b2e60773SJohn Baldwin static counter_u64_t ktls_switch_to_ifnet; 152b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, switch_to_ifnet, CTLFLAG_RD, 153b2e60773SJohn Baldwin &ktls_switch_to_ifnet, "TLS sessions switched from SW to ifnet"); 154b2e60773SJohn Baldwin 155b2e60773SJohn Baldwin static counter_u64_t ktls_switch_to_sw; 156b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, switch_to_sw, CTLFLAG_RD, 157b2e60773SJohn Baldwin &ktls_switch_to_sw, "TLS sessions switched from ifnet to SW"); 158b2e60773SJohn Baldwin 159b2e60773SJohn Baldwin static counter_u64_t ktls_switch_failed; 160b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, switch_failed, CTLFLAG_RD, 161b2e60773SJohn Baldwin &ktls_switch_failed, "TLS sessions unable to switch between SW and ifnet"); 162b2e60773SJohn Baldwin 163b2e60773SJohn Baldwin SYSCTL_NODE(_kern_ipc_tls, OID_AUTO, sw, CTLFLAG_RD, 0, 164b2e60773SJohn Baldwin "Software TLS session stats"); 165b2e60773SJohn Baldwin SYSCTL_NODE(_kern_ipc_tls, OID_AUTO, ifnet, CTLFLAG_RD, 0, 166b2e60773SJohn Baldwin "Hardware (ifnet) TLS session stats"); 167*9e14430dSJohn Baldwin #ifdef TCP_OFFLOAD 168*9e14430dSJohn Baldwin SYSCTL_NODE(_kern_ipc_tls, OID_AUTO, toe, CTLFLAG_RD, 0, 169*9e14430dSJohn Baldwin "TOE TLS session stats"); 170*9e14430dSJohn Baldwin #endif 171b2e60773SJohn Baldwin 172b2e60773SJohn Baldwin static counter_u64_t ktls_sw_cbc; 173b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_sw, OID_AUTO, cbc, CTLFLAG_RD, &ktls_sw_cbc, 174b2e60773SJohn Baldwin "Active number of software TLS sessions using AES-CBC"); 175b2e60773SJohn Baldwin 176b2e60773SJohn Baldwin static counter_u64_t ktls_sw_gcm; 177b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_sw, OID_AUTO, gcm, CTLFLAG_RD, &ktls_sw_gcm, 178b2e60773SJohn Baldwin "Active number of software TLS sessions using AES-GCM"); 179b2e60773SJohn Baldwin 180b2e60773SJohn Baldwin static counter_u64_t ktls_ifnet_cbc; 181b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_ifnet, OID_AUTO, cbc, CTLFLAG_RD, 182b2e60773SJohn Baldwin &ktls_ifnet_cbc, 183b2e60773SJohn Baldwin "Active number of ifnet TLS sessions using AES-CBC"); 184b2e60773SJohn Baldwin 185b2e60773SJohn Baldwin static counter_u64_t ktls_ifnet_gcm; 186b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_ifnet, OID_AUTO, gcm, CTLFLAG_RD, 187b2e60773SJohn Baldwin &ktls_ifnet_gcm, 188b2e60773SJohn Baldwin "Active number of ifnet TLS sessions using AES-GCM"); 189b2e60773SJohn Baldwin 190b2e60773SJohn Baldwin static counter_u64_t ktls_ifnet_reset; 191b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_ifnet, OID_AUTO, reset, CTLFLAG_RD, 192b2e60773SJohn Baldwin &ktls_ifnet_reset, "TLS sessions updated to a new ifnet send tag"); 193b2e60773SJohn Baldwin 194b2e60773SJohn Baldwin static counter_u64_t ktls_ifnet_reset_dropped; 195b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_ifnet, OID_AUTO, reset_dropped, CTLFLAG_RD, 196b2e60773SJohn Baldwin &ktls_ifnet_reset_dropped, 197b2e60773SJohn Baldwin "TLS sessions dropped after failing to update ifnet send tag"); 198b2e60773SJohn Baldwin 199b2e60773SJohn Baldwin static counter_u64_t ktls_ifnet_reset_failed; 200b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_ifnet, OID_AUTO, reset_failed, CTLFLAG_RD, 201b2e60773SJohn Baldwin &ktls_ifnet_reset_failed, 202b2e60773SJohn Baldwin "TLS sessions that failed to allocate a new ifnet send tag"); 203b2e60773SJohn Baldwin 204b2e60773SJohn Baldwin static int ktls_ifnet_permitted; 205b2e60773SJohn Baldwin SYSCTL_UINT(_kern_ipc_tls_ifnet, OID_AUTO, permitted, CTLFLAG_RWTUN, 206b2e60773SJohn Baldwin &ktls_ifnet_permitted, 1, 207b2e60773SJohn Baldwin "Whether to permit hardware (ifnet) TLS sessions"); 208b2e60773SJohn Baldwin 209*9e14430dSJohn Baldwin #ifdef TCP_OFFLOAD 210*9e14430dSJohn Baldwin static counter_u64_t ktls_toe_cbc; 211*9e14430dSJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_toe, OID_AUTO, cbc, CTLFLAG_RD, 212*9e14430dSJohn Baldwin &ktls_toe_cbc, 213*9e14430dSJohn Baldwin "Active number of TOE TLS sessions using AES-CBC"); 214*9e14430dSJohn Baldwin 215*9e14430dSJohn Baldwin static counter_u64_t ktls_toe_gcm; 216*9e14430dSJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_toe, OID_AUTO, gcm, CTLFLAG_RD, 217*9e14430dSJohn Baldwin &ktls_toe_gcm, 218*9e14430dSJohn Baldwin "Active number of TOE TLS sessions using AES-GCM"); 219*9e14430dSJohn Baldwin #endif 220*9e14430dSJohn Baldwin 221b2e60773SJohn Baldwin static MALLOC_DEFINE(M_KTLS, "ktls", "Kernel TLS"); 222b2e60773SJohn Baldwin 223b2e60773SJohn Baldwin static void ktls_cleanup(struct ktls_session *tls); 224b2e60773SJohn Baldwin #if defined(INET) || defined(INET6) 225b2e60773SJohn Baldwin static void ktls_reset_send_tag(void *context, int pending); 226b2e60773SJohn Baldwin #endif 227b2e60773SJohn Baldwin static void ktls_work_thread(void *ctx); 228b2e60773SJohn Baldwin 229b2e60773SJohn Baldwin int 230b2e60773SJohn Baldwin ktls_crypto_backend_register(struct ktls_crypto_backend *be) 231b2e60773SJohn Baldwin { 232b2e60773SJohn Baldwin struct ktls_crypto_backend *curr_be, *tmp; 233b2e60773SJohn Baldwin 234b2e60773SJohn Baldwin if (be->api_version != KTLS_API_VERSION) { 235b2e60773SJohn Baldwin printf("KTLS: API version mismatch (%d vs %d) for %s\n", 236b2e60773SJohn Baldwin be->api_version, KTLS_API_VERSION, 237b2e60773SJohn Baldwin be->name); 238b2e60773SJohn Baldwin return (EINVAL); 239b2e60773SJohn Baldwin } 240b2e60773SJohn Baldwin 241b2e60773SJohn Baldwin rm_wlock(&ktls_backends_lock); 242b2e60773SJohn Baldwin printf("KTLS: Registering crypto method %s with prio %d\n", 243b2e60773SJohn Baldwin be->name, be->prio); 244b2e60773SJohn Baldwin if (LIST_EMPTY(&ktls_backends)) { 245b2e60773SJohn Baldwin LIST_INSERT_HEAD(&ktls_backends, be, next); 246b2e60773SJohn Baldwin } else { 247b2e60773SJohn Baldwin LIST_FOREACH_SAFE(curr_be, &ktls_backends, next, tmp) { 248b2e60773SJohn Baldwin if (curr_be->prio < be->prio) { 249b2e60773SJohn Baldwin LIST_INSERT_BEFORE(curr_be, be, next); 250b2e60773SJohn Baldwin break; 251b2e60773SJohn Baldwin } 252b2e60773SJohn Baldwin if (LIST_NEXT(curr_be, next) == NULL) { 253b2e60773SJohn Baldwin LIST_INSERT_AFTER(curr_be, be, next); 254b2e60773SJohn Baldwin break; 255b2e60773SJohn Baldwin } 256b2e60773SJohn Baldwin } 257b2e60773SJohn Baldwin } 258b2e60773SJohn Baldwin rm_wunlock(&ktls_backends_lock); 259b2e60773SJohn Baldwin return (0); 260b2e60773SJohn Baldwin } 261b2e60773SJohn Baldwin 262b2e60773SJohn Baldwin int 263b2e60773SJohn Baldwin ktls_crypto_backend_deregister(struct ktls_crypto_backend *be) 264b2e60773SJohn Baldwin { 265b2e60773SJohn Baldwin struct ktls_crypto_backend *tmp; 266b2e60773SJohn Baldwin 267b2e60773SJohn Baldwin /* 268b2e60773SJohn Baldwin * Don't error if the backend isn't registered. This permits 269b2e60773SJohn Baldwin * MOD_UNLOAD handlers to use this function unconditionally. 270b2e60773SJohn Baldwin */ 271b2e60773SJohn Baldwin rm_wlock(&ktls_backends_lock); 272b2e60773SJohn Baldwin LIST_FOREACH(tmp, &ktls_backends, next) { 273b2e60773SJohn Baldwin if (tmp == be) 274b2e60773SJohn Baldwin break; 275b2e60773SJohn Baldwin } 276b2e60773SJohn Baldwin if (tmp == NULL) { 277b2e60773SJohn Baldwin rm_wunlock(&ktls_backends_lock); 278b2e60773SJohn Baldwin return (0); 279b2e60773SJohn Baldwin } 280b2e60773SJohn Baldwin 281b2e60773SJohn Baldwin if (!ktls_allow_unload) { 282b2e60773SJohn Baldwin rm_wunlock(&ktls_backends_lock); 283b2e60773SJohn Baldwin printf( 284b2e60773SJohn Baldwin "KTLS: Deregistering crypto method %s is not supported\n", 285b2e60773SJohn Baldwin be->name); 286b2e60773SJohn Baldwin return (EBUSY); 287b2e60773SJohn Baldwin } 288b2e60773SJohn Baldwin 289b2e60773SJohn Baldwin if (be->use_count) { 290b2e60773SJohn Baldwin rm_wunlock(&ktls_backends_lock); 291b2e60773SJohn Baldwin return (EBUSY); 292b2e60773SJohn Baldwin } 293b2e60773SJohn Baldwin 294b2e60773SJohn Baldwin LIST_REMOVE(be, next); 295b2e60773SJohn Baldwin rm_wunlock(&ktls_backends_lock); 296b2e60773SJohn Baldwin return (0); 297b2e60773SJohn Baldwin } 298b2e60773SJohn Baldwin 299b2e60773SJohn Baldwin #if defined(INET) || defined(INET6) 300b2e60773SJohn Baldwin static uint16_t 301b2e60773SJohn Baldwin ktls_get_cpu(struct socket *so) 302b2e60773SJohn Baldwin { 303b2e60773SJohn Baldwin struct inpcb *inp; 304b2e60773SJohn Baldwin uint16_t cpuid; 305b2e60773SJohn Baldwin 306b2e60773SJohn Baldwin inp = sotoinpcb(so); 307b2e60773SJohn Baldwin #ifdef RSS 308b2e60773SJohn Baldwin cpuid = rss_hash2cpuid(inp->inp_flowid, inp->inp_flowtype); 309b2e60773SJohn Baldwin if (cpuid != NETISR_CPUID_NONE) 310b2e60773SJohn Baldwin return (cpuid); 311b2e60773SJohn Baldwin #endif 312b2e60773SJohn Baldwin /* 313b2e60773SJohn Baldwin * Just use the flowid to shard connections in a repeatable 314b2e60773SJohn Baldwin * fashion. Note that some crypto backends rely on the 315b2e60773SJohn Baldwin * serialization provided by having the same connection use 316b2e60773SJohn Baldwin * the same queue. 317b2e60773SJohn Baldwin */ 318b2e60773SJohn Baldwin cpuid = ktls_cpuid_lookup[inp->inp_flowid % ktls_number_threads]; 319b2e60773SJohn Baldwin return (cpuid); 320b2e60773SJohn Baldwin } 321b2e60773SJohn Baldwin #endif 322b2e60773SJohn Baldwin 323b2e60773SJohn Baldwin static void 324b2e60773SJohn Baldwin ktls_init(void *dummy __unused) 325b2e60773SJohn Baldwin { 326b2e60773SJohn Baldwin struct thread *td; 327b2e60773SJohn Baldwin struct pcpu *pc; 328b2e60773SJohn Baldwin cpuset_t mask; 329b2e60773SJohn Baldwin int error, i; 330b2e60773SJohn Baldwin 331b2e60773SJohn Baldwin ktls_tasks_active = counter_u64_alloc(M_WAITOK); 332b2e60773SJohn Baldwin ktls_cnt_on = counter_u64_alloc(M_WAITOK); 333b2e60773SJohn Baldwin ktls_offload_total = counter_u64_alloc(M_WAITOK); 334b2e60773SJohn Baldwin ktls_offload_enable_calls = counter_u64_alloc(M_WAITOK); 335b2e60773SJohn Baldwin ktls_offload_active = counter_u64_alloc(M_WAITOK); 336b2e60773SJohn Baldwin ktls_offload_failed_crypto = counter_u64_alloc(M_WAITOK); 337b2e60773SJohn Baldwin ktls_switch_to_ifnet = counter_u64_alloc(M_WAITOK); 338b2e60773SJohn Baldwin ktls_switch_to_sw = counter_u64_alloc(M_WAITOK); 339b2e60773SJohn Baldwin ktls_switch_failed = counter_u64_alloc(M_WAITOK); 340b2e60773SJohn Baldwin ktls_sw_cbc = counter_u64_alloc(M_WAITOK); 341b2e60773SJohn Baldwin ktls_sw_gcm = counter_u64_alloc(M_WAITOK); 342b2e60773SJohn Baldwin ktls_ifnet_cbc = counter_u64_alloc(M_WAITOK); 343b2e60773SJohn Baldwin ktls_ifnet_gcm = counter_u64_alloc(M_WAITOK); 344b2e60773SJohn Baldwin ktls_ifnet_reset = counter_u64_alloc(M_WAITOK); 345b2e60773SJohn Baldwin ktls_ifnet_reset_dropped = counter_u64_alloc(M_WAITOK); 346b2e60773SJohn Baldwin ktls_ifnet_reset_failed = counter_u64_alloc(M_WAITOK); 347*9e14430dSJohn Baldwin #ifdef TCP_OFFLOAD 348*9e14430dSJohn Baldwin ktls_toe_cbc = counter_u64_alloc(M_WAITOK); 349*9e14430dSJohn Baldwin ktls_toe_gcm = counter_u64_alloc(M_WAITOK); 350*9e14430dSJohn Baldwin #endif 351b2e60773SJohn Baldwin 352b2e60773SJohn Baldwin rm_init(&ktls_backends_lock, "ktls backends"); 353b2e60773SJohn Baldwin LIST_INIT(&ktls_backends); 354b2e60773SJohn Baldwin 355b2e60773SJohn Baldwin ktls_wq = malloc(sizeof(*ktls_wq) * (mp_maxid + 1), M_KTLS, 356b2e60773SJohn Baldwin M_WAITOK | M_ZERO); 357b2e60773SJohn Baldwin 358b2e60773SJohn Baldwin ktls_session_zone = uma_zcreate("ktls_session", 359b2e60773SJohn Baldwin sizeof(struct ktls_session), 360b2e60773SJohn Baldwin #ifdef INVARIANTS 361b2e60773SJohn Baldwin trash_ctor, trash_dtor, trash_init, trash_fini, 362b2e60773SJohn Baldwin #else 363b2e60773SJohn Baldwin NULL, NULL, NULL, NULL, 364b2e60773SJohn Baldwin #endif 365b2e60773SJohn Baldwin UMA_ALIGN_CACHE, 0); 366b2e60773SJohn Baldwin 367b2e60773SJohn Baldwin /* 368b2e60773SJohn Baldwin * Initialize the workqueues to run the TLS work. We create a 369b2e60773SJohn Baldwin * work queue for each CPU. 370b2e60773SJohn Baldwin */ 371b2e60773SJohn Baldwin CPU_FOREACH(i) { 372b2e60773SJohn Baldwin STAILQ_INIT(&ktls_wq[i].head); 373b2e60773SJohn Baldwin mtx_init(&ktls_wq[i].mtx, "ktls work queue", NULL, MTX_DEF); 374b2e60773SJohn Baldwin error = kproc_kthread_add(ktls_work_thread, &ktls_wq[i], 37561b8a4afSAndrew Gallatin &ktls_proc, &td, 0, 0, "KTLS", "thr_%d", i); 376b2e60773SJohn Baldwin if (error) 377b2e60773SJohn Baldwin panic("Can't add KTLS thread %d error %d", i, error); 378b2e60773SJohn Baldwin 379b2e60773SJohn Baldwin /* 380b2e60773SJohn Baldwin * Bind threads to cores. If ktls_bind_threads is > 381b2e60773SJohn Baldwin * 1, then we bind to the NUMA domain. 382b2e60773SJohn Baldwin */ 383b2e60773SJohn Baldwin if (ktls_bind_threads) { 384b2e60773SJohn Baldwin if (ktls_bind_threads > 1) { 385b2e60773SJohn Baldwin pc = pcpu_find(i); 386b2e60773SJohn Baldwin CPU_COPY(&cpuset_domain[pc->pc_domain], &mask); 387b2e60773SJohn Baldwin } else { 388b2e60773SJohn Baldwin CPU_SETOF(i, &mask); 389b2e60773SJohn Baldwin } 390b2e60773SJohn Baldwin error = cpuset_setthread(td->td_tid, &mask); 391b2e60773SJohn Baldwin if (error) 392b2e60773SJohn Baldwin panic( 393b2e60773SJohn Baldwin "Unable to bind KTLS thread for CPU %d error %d", 394b2e60773SJohn Baldwin i, error); 395b2e60773SJohn Baldwin } 396b2e60773SJohn Baldwin ktls_cpuid_lookup[ktls_number_threads] = i; 397b2e60773SJohn Baldwin ktls_number_threads++; 398b2e60773SJohn Baldwin } 399b2e60773SJohn Baldwin printf("KTLS: Initialized %d threads\n", ktls_number_threads); 400b2e60773SJohn Baldwin } 401b2e60773SJohn Baldwin SYSINIT(ktls, SI_SUB_SMP + 1, SI_ORDER_ANY, ktls_init, NULL); 402b2e60773SJohn Baldwin 403b2e60773SJohn Baldwin #if defined(INET) || defined(INET6) 404b2e60773SJohn Baldwin static int 405b2e60773SJohn Baldwin ktls_create_session(struct socket *so, struct tls_enable *en, 406b2e60773SJohn Baldwin struct ktls_session **tlsp) 407b2e60773SJohn Baldwin { 408b2e60773SJohn Baldwin struct ktls_session *tls; 409b2e60773SJohn Baldwin int error; 410b2e60773SJohn Baldwin 411b2e60773SJohn Baldwin /* Only TLS 1.0 - 1.2 are supported. */ 412b2e60773SJohn Baldwin if (en->tls_vmajor != TLS_MAJOR_VER_ONE) 413b2e60773SJohn Baldwin return (EINVAL); 414b2e60773SJohn Baldwin if (en->tls_vminor < TLS_MINOR_VER_ZERO || 4156554362cSAndrew Gallatin en->tls_vminor > TLS_MINOR_VER_THREE) 416b2e60773SJohn Baldwin return (EINVAL); 417b2e60773SJohn Baldwin 418b2e60773SJohn Baldwin if (en->auth_key_len < 0 || en->auth_key_len > TLS_MAX_PARAM_SIZE) 419b2e60773SJohn Baldwin return (EINVAL); 420b2e60773SJohn Baldwin if (en->cipher_key_len < 0 || en->cipher_key_len > TLS_MAX_PARAM_SIZE) 421b2e60773SJohn Baldwin return (EINVAL); 4226554362cSAndrew Gallatin if (en->iv_len < 0 || en->iv_len > sizeof(tls->params.iv)) 423b2e60773SJohn Baldwin return (EINVAL); 424b2e60773SJohn Baldwin 425b2e60773SJohn Baldwin /* All supported algorithms require a cipher key. */ 426b2e60773SJohn Baldwin if (en->cipher_key_len == 0) 427b2e60773SJohn Baldwin return (EINVAL); 428b2e60773SJohn Baldwin 429b2e60773SJohn Baldwin /* No flags are currently supported. */ 430b2e60773SJohn Baldwin if (en->flags != 0) 431b2e60773SJohn Baldwin return (EINVAL); 432b2e60773SJohn Baldwin 433b2e60773SJohn Baldwin /* Common checks for supported algorithms. */ 434b2e60773SJohn Baldwin switch (en->cipher_algorithm) { 435b2e60773SJohn Baldwin case CRYPTO_AES_NIST_GCM_16: 436b2e60773SJohn Baldwin /* 437b2e60773SJohn Baldwin * auth_algorithm isn't used, but permit GMAC values 438b2e60773SJohn Baldwin * for compatibility. 439b2e60773SJohn Baldwin */ 440b2e60773SJohn Baldwin switch (en->auth_algorithm) { 441b2e60773SJohn Baldwin case 0: 442b2e60773SJohn Baldwin case CRYPTO_AES_128_NIST_GMAC: 443b2e60773SJohn Baldwin case CRYPTO_AES_192_NIST_GMAC: 444b2e60773SJohn Baldwin case CRYPTO_AES_256_NIST_GMAC: 445b2e60773SJohn Baldwin break; 446b2e60773SJohn Baldwin default: 447b2e60773SJohn Baldwin return (EINVAL); 448b2e60773SJohn Baldwin } 449b2e60773SJohn Baldwin if (en->auth_key_len != 0) 450b2e60773SJohn Baldwin return (EINVAL); 4516554362cSAndrew Gallatin if ((en->tls_vminor == TLS_MINOR_VER_TWO && 4526554362cSAndrew Gallatin en->iv_len != TLS_AEAD_GCM_LEN) || 4536554362cSAndrew Gallatin (en->tls_vminor == TLS_MINOR_VER_THREE && 4546554362cSAndrew Gallatin en->iv_len != TLS_1_3_GCM_IV_LEN)) 455b2e60773SJohn Baldwin return (EINVAL); 456b2e60773SJohn Baldwin break; 457b2e60773SJohn Baldwin case CRYPTO_AES_CBC: 458b2e60773SJohn Baldwin switch (en->auth_algorithm) { 459b2e60773SJohn Baldwin case CRYPTO_SHA1_HMAC: 460b2e60773SJohn Baldwin /* 461b2e60773SJohn Baldwin * TLS 1.0 requires an implicit IV. TLS 1.1+ 462b2e60773SJohn Baldwin * all use explicit IVs. 463b2e60773SJohn Baldwin */ 464b2e60773SJohn Baldwin if (en->tls_vminor == TLS_MINOR_VER_ZERO) { 465b2e60773SJohn Baldwin if (en->iv_len != TLS_CBC_IMPLICIT_IV_LEN) 466b2e60773SJohn Baldwin return (EINVAL); 467b2e60773SJohn Baldwin break; 468b2e60773SJohn Baldwin } 469b2e60773SJohn Baldwin 470b2e60773SJohn Baldwin /* FALLTHROUGH */ 471b2e60773SJohn Baldwin case CRYPTO_SHA2_256_HMAC: 472b2e60773SJohn Baldwin case CRYPTO_SHA2_384_HMAC: 473b2e60773SJohn Baldwin /* Ignore any supplied IV. */ 474b2e60773SJohn Baldwin en->iv_len = 0; 475b2e60773SJohn Baldwin break; 476b2e60773SJohn Baldwin default: 477b2e60773SJohn Baldwin return (EINVAL); 478b2e60773SJohn Baldwin } 479b2e60773SJohn Baldwin if (en->auth_key_len == 0) 480b2e60773SJohn Baldwin return (EINVAL); 481b2e60773SJohn Baldwin break; 482b2e60773SJohn Baldwin default: 483b2e60773SJohn Baldwin return (EINVAL); 484b2e60773SJohn Baldwin } 485b2e60773SJohn Baldwin 486b2e60773SJohn Baldwin tls = uma_zalloc(ktls_session_zone, M_WAITOK | M_ZERO); 487b2e60773SJohn Baldwin 488b2e60773SJohn Baldwin counter_u64_add(ktls_offload_active, 1); 489b2e60773SJohn Baldwin 490b2e60773SJohn Baldwin refcount_init(&tls->refcount, 1); 491b2e60773SJohn Baldwin TASK_INIT(&tls->reset_tag_task, 0, ktls_reset_send_tag, tls); 492b2e60773SJohn Baldwin 493b2e60773SJohn Baldwin tls->wq_index = ktls_get_cpu(so); 494b2e60773SJohn Baldwin 495b2e60773SJohn Baldwin tls->params.cipher_algorithm = en->cipher_algorithm; 496b2e60773SJohn Baldwin tls->params.auth_algorithm = en->auth_algorithm; 497b2e60773SJohn Baldwin tls->params.tls_vmajor = en->tls_vmajor; 498b2e60773SJohn Baldwin tls->params.tls_vminor = en->tls_vminor; 499b2e60773SJohn Baldwin tls->params.flags = en->flags; 500b2e60773SJohn Baldwin tls->params.max_frame_len = min(TLS_MAX_MSG_SIZE_V10_2, ktls_maxlen); 501b2e60773SJohn Baldwin 502b2e60773SJohn Baldwin /* Set the header and trailer lengths. */ 503b2e60773SJohn Baldwin tls->params.tls_hlen = sizeof(struct tls_record_layer); 504b2e60773SJohn Baldwin switch (en->cipher_algorithm) { 505b2e60773SJohn Baldwin case CRYPTO_AES_NIST_GCM_16: 5066554362cSAndrew Gallatin /* 5076554362cSAndrew Gallatin * TLS 1.2 uses a 4 byte implicit IV with an explicit 8 byte 5086554362cSAndrew Gallatin * nonce. TLS 1.3 uses a 12 byte implicit IV. 5096554362cSAndrew Gallatin */ 5106554362cSAndrew Gallatin if (en->tls_vminor < TLS_MINOR_VER_THREE) 5116554362cSAndrew Gallatin tls->params.tls_hlen += sizeof(uint64_t); 512b2e60773SJohn Baldwin tls->params.tls_tlen = AES_GMAC_HASH_LEN; 5136554362cSAndrew Gallatin 5146554362cSAndrew Gallatin /* 5156554362cSAndrew Gallatin * TLS 1.3 includes optional padding which we 5166554362cSAndrew Gallatin * do not support, and also puts the "real" record 5176554362cSAndrew Gallatin * type at the end of the encrypted data. 5186554362cSAndrew Gallatin */ 5196554362cSAndrew Gallatin if (en->tls_vminor == TLS_MINOR_VER_THREE) 5206554362cSAndrew Gallatin tls->params.tls_tlen += sizeof(uint8_t); 5216554362cSAndrew Gallatin 522b2e60773SJohn Baldwin tls->params.tls_bs = 1; 523b2e60773SJohn Baldwin break; 524b2e60773SJohn Baldwin case CRYPTO_AES_CBC: 525b2e60773SJohn Baldwin switch (en->auth_algorithm) { 526b2e60773SJohn Baldwin case CRYPTO_SHA1_HMAC: 527b2e60773SJohn Baldwin if (en->tls_vminor == TLS_MINOR_VER_ZERO) { 528b2e60773SJohn Baldwin /* Implicit IV, no nonce. */ 529b2e60773SJohn Baldwin } else { 530b2e60773SJohn Baldwin tls->params.tls_hlen += AES_BLOCK_LEN; 531b2e60773SJohn Baldwin } 532b2e60773SJohn Baldwin tls->params.tls_tlen = AES_BLOCK_LEN + 533b2e60773SJohn Baldwin SHA1_HASH_LEN; 534b2e60773SJohn Baldwin break; 535b2e60773SJohn Baldwin case CRYPTO_SHA2_256_HMAC: 536b2e60773SJohn Baldwin tls->params.tls_hlen += AES_BLOCK_LEN; 537b2e60773SJohn Baldwin tls->params.tls_tlen = AES_BLOCK_LEN + 538b2e60773SJohn Baldwin SHA2_256_HASH_LEN; 539b2e60773SJohn Baldwin break; 540b2e60773SJohn Baldwin case CRYPTO_SHA2_384_HMAC: 541b2e60773SJohn Baldwin tls->params.tls_hlen += AES_BLOCK_LEN; 542b2e60773SJohn Baldwin tls->params.tls_tlen = AES_BLOCK_LEN + 543b2e60773SJohn Baldwin SHA2_384_HASH_LEN; 544b2e60773SJohn Baldwin break; 545b2e60773SJohn Baldwin default: 546b2e60773SJohn Baldwin panic("invalid hmac"); 547b2e60773SJohn Baldwin } 548b2e60773SJohn Baldwin tls->params.tls_bs = AES_BLOCK_LEN; 549b2e60773SJohn Baldwin break; 550b2e60773SJohn Baldwin default: 551b2e60773SJohn Baldwin panic("invalid cipher"); 552b2e60773SJohn Baldwin } 553b2e60773SJohn Baldwin 554b2e60773SJohn Baldwin KASSERT(tls->params.tls_hlen <= MBUF_PEXT_HDR_LEN, 555b2e60773SJohn Baldwin ("TLS header length too long: %d", tls->params.tls_hlen)); 556b2e60773SJohn Baldwin KASSERT(tls->params.tls_tlen <= MBUF_PEXT_TRAIL_LEN, 557b2e60773SJohn Baldwin ("TLS trailer length too long: %d", tls->params.tls_tlen)); 558b2e60773SJohn Baldwin 559b2e60773SJohn Baldwin if (en->auth_key_len != 0) { 560b2e60773SJohn Baldwin tls->params.auth_key_len = en->auth_key_len; 561b2e60773SJohn Baldwin tls->params.auth_key = malloc(en->auth_key_len, M_KTLS, 562b2e60773SJohn Baldwin M_WAITOK); 563b2e60773SJohn Baldwin error = copyin(en->auth_key, tls->params.auth_key, 564b2e60773SJohn Baldwin en->auth_key_len); 565b2e60773SJohn Baldwin if (error) 566b2e60773SJohn Baldwin goto out; 567b2e60773SJohn Baldwin } 568b2e60773SJohn Baldwin 569b2e60773SJohn Baldwin tls->params.cipher_key_len = en->cipher_key_len; 570b2e60773SJohn Baldwin tls->params.cipher_key = malloc(en->cipher_key_len, M_KTLS, M_WAITOK); 571b2e60773SJohn Baldwin error = copyin(en->cipher_key, tls->params.cipher_key, 572b2e60773SJohn Baldwin en->cipher_key_len); 573b2e60773SJohn Baldwin if (error) 574b2e60773SJohn Baldwin goto out; 575b2e60773SJohn Baldwin 576b2e60773SJohn Baldwin /* 577b2e60773SJohn Baldwin * This holds the implicit portion of the nonce for GCM and 578b2e60773SJohn Baldwin * the initial implicit IV for TLS 1.0. The explicit portions 579b2e60773SJohn Baldwin * of the IV are generated in ktls_frame() and ktls_seq(). 580b2e60773SJohn Baldwin */ 581b2e60773SJohn Baldwin if (en->iv_len != 0) { 582b2e60773SJohn Baldwin tls->params.iv_len = en->iv_len; 583b2e60773SJohn Baldwin error = copyin(en->iv, tls->params.iv, en->iv_len); 584b2e60773SJohn Baldwin if (error) 585b2e60773SJohn Baldwin goto out; 586b2e60773SJohn Baldwin } 587b2e60773SJohn Baldwin 588b2e60773SJohn Baldwin *tlsp = tls; 589b2e60773SJohn Baldwin return (0); 590b2e60773SJohn Baldwin 591b2e60773SJohn Baldwin out: 592b2e60773SJohn Baldwin ktls_cleanup(tls); 593b2e60773SJohn Baldwin return (error); 594b2e60773SJohn Baldwin } 595b2e60773SJohn Baldwin 596b2e60773SJohn Baldwin static struct ktls_session * 597b2e60773SJohn Baldwin ktls_clone_session(struct ktls_session *tls) 598b2e60773SJohn Baldwin { 599b2e60773SJohn Baldwin struct ktls_session *tls_new; 600b2e60773SJohn Baldwin 601b2e60773SJohn Baldwin tls_new = uma_zalloc(ktls_session_zone, M_WAITOK | M_ZERO); 602b2e60773SJohn Baldwin 603b2e60773SJohn Baldwin counter_u64_add(ktls_offload_active, 1); 604b2e60773SJohn Baldwin 605b2e60773SJohn Baldwin refcount_init(&tls_new->refcount, 1); 606b2e60773SJohn Baldwin 607b2e60773SJohn Baldwin /* Copy fields from existing session. */ 608b2e60773SJohn Baldwin tls_new->params = tls->params; 609b2e60773SJohn Baldwin tls_new->wq_index = tls->wq_index; 610b2e60773SJohn Baldwin 611b2e60773SJohn Baldwin /* Deep copy keys. */ 612b2e60773SJohn Baldwin if (tls_new->params.auth_key != NULL) { 613b2e60773SJohn Baldwin tls_new->params.auth_key = malloc(tls->params.auth_key_len, 614b2e60773SJohn Baldwin M_KTLS, M_WAITOK); 615b2e60773SJohn Baldwin memcpy(tls_new->params.auth_key, tls->params.auth_key, 616b2e60773SJohn Baldwin tls->params.auth_key_len); 617b2e60773SJohn Baldwin } 618b2e60773SJohn Baldwin 619b2e60773SJohn Baldwin tls_new->params.cipher_key = malloc(tls->params.cipher_key_len, M_KTLS, 620b2e60773SJohn Baldwin M_WAITOK); 621b2e60773SJohn Baldwin memcpy(tls_new->params.cipher_key, tls->params.cipher_key, 622b2e60773SJohn Baldwin tls->params.cipher_key_len); 623b2e60773SJohn Baldwin 624b2e60773SJohn Baldwin return (tls_new); 625b2e60773SJohn Baldwin } 626b2e60773SJohn Baldwin #endif 627b2e60773SJohn Baldwin 628b2e60773SJohn Baldwin static void 629b2e60773SJohn Baldwin ktls_cleanup(struct ktls_session *tls) 630b2e60773SJohn Baldwin { 631b2e60773SJohn Baldwin 632b2e60773SJohn Baldwin counter_u64_add(ktls_offload_active, -1); 633*9e14430dSJohn Baldwin switch (tls->mode) { 634*9e14430dSJohn Baldwin case TCP_TLS_MODE_SW: 635b2e60773SJohn Baldwin MPASS(tls->be != NULL); 636b2e60773SJohn Baldwin switch (tls->params.cipher_algorithm) { 637b2e60773SJohn Baldwin case CRYPTO_AES_CBC: 638b2e60773SJohn Baldwin counter_u64_add(ktls_sw_cbc, -1); 639b2e60773SJohn Baldwin break; 640b2e60773SJohn Baldwin case CRYPTO_AES_NIST_GCM_16: 641b2e60773SJohn Baldwin counter_u64_add(ktls_sw_gcm, -1); 642b2e60773SJohn Baldwin break; 643b2e60773SJohn Baldwin } 644b2e60773SJohn Baldwin tls->free(tls); 645*9e14430dSJohn Baldwin break; 646*9e14430dSJohn Baldwin case TCP_TLS_MODE_IFNET: 647b2e60773SJohn Baldwin switch (tls->params.cipher_algorithm) { 648b2e60773SJohn Baldwin case CRYPTO_AES_CBC: 649b2e60773SJohn Baldwin counter_u64_add(ktls_ifnet_cbc, -1); 650b2e60773SJohn Baldwin break; 651b2e60773SJohn Baldwin case CRYPTO_AES_NIST_GCM_16: 652b2e60773SJohn Baldwin counter_u64_add(ktls_ifnet_gcm, -1); 653b2e60773SJohn Baldwin break; 654b2e60773SJohn Baldwin } 655b2e60773SJohn Baldwin m_snd_tag_rele(tls->snd_tag); 656*9e14430dSJohn Baldwin break; 657*9e14430dSJohn Baldwin #ifdef TCP_OFFLOAD 658*9e14430dSJohn Baldwin case TCP_TLS_MODE_TOE: 659*9e14430dSJohn Baldwin switch (tls->params.cipher_algorithm) { 660*9e14430dSJohn Baldwin case CRYPTO_AES_CBC: 661*9e14430dSJohn Baldwin counter_u64_add(ktls_toe_cbc, -1); 662*9e14430dSJohn Baldwin break; 663*9e14430dSJohn Baldwin case CRYPTO_AES_NIST_GCM_16: 664*9e14430dSJohn Baldwin counter_u64_add(ktls_toe_gcm, -1); 665*9e14430dSJohn Baldwin break; 666*9e14430dSJohn Baldwin } 667*9e14430dSJohn Baldwin break; 668*9e14430dSJohn Baldwin #endif 669b2e60773SJohn Baldwin } 670b2e60773SJohn Baldwin if (tls->params.auth_key != NULL) { 671b2e60773SJohn Baldwin explicit_bzero(tls->params.auth_key, tls->params.auth_key_len); 672b2e60773SJohn Baldwin free(tls->params.auth_key, M_KTLS); 673b2e60773SJohn Baldwin tls->params.auth_key = NULL; 674b2e60773SJohn Baldwin tls->params.auth_key_len = 0; 675b2e60773SJohn Baldwin } 676b2e60773SJohn Baldwin if (tls->params.cipher_key != NULL) { 677b2e60773SJohn Baldwin explicit_bzero(tls->params.cipher_key, 678b2e60773SJohn Baldwin tls->params.cipher_key_len); 679b2e60773SJohn Baldwin free(tls->params.cipher_key, M_KTLS); 680b2e60773SJohn Baldwin tls->params.cipher_key = NULL; 681b2e60773SJohn Baldwin tls->params.cipher_key_len = 0; 682b2e60773SJohn Baldwin } 683b2e60773SJohn Baldwin explicit_bzero(tls->params.iv, sizeof(tls->params.iv)); 684b2e60773SJohn Baldwin } 685b2e60773SJohn Baldwin 686b2e60773SJohn Baldwin #if defined(INET) || defined(INET6) 687*9e14430dSJohn Baldwin 688*9e14430dSJohn Baldwin #ifdef TCP_OFFLOAD 689*9e14430dSJohn Baldwin static int 690*9e14430dSJohn Baldwin ktls_try_toe(struct socket *so, struct ktls_session *tls) 691*9e14430dSJohn Baldwin { 692*9e14430dSJohn Baldwin struct inpcb *inp; 693*9e14430dSJohn Baldwin struct tcpcb *tp; 694*9e14430dSJohn Baldwin int error; 695*9e14430dSJohn Baldwin 696*9e14430dSJohn Baldwin inp = so->so_pcb; 697*9e14430dSJohn Baldwin INP_WLOCK(inp); 698*9e14430dSJohn Baldwin if (inp->inp_flags2 & INP_FREED) { 699*9e14430dSJohn Baldwin INP_WUNLOCK(inp); 700*9e14430dSJohn Baldwin return (ECONNRESET); 701*9e14430dSJohn Baldwin } 702*9e14430dSJohn Baldwin if (inp->inp_flags & (INP_TIMEWAIT | INP_DROPPED)) { 703*9e14430dSJohn Baldwin INP_WUNLOCK(inp); 704*9e14430dSJohn Baldwin return (ECONNRESET); 705*9e14430dSJohn Baldwin } 706*9e14430dSJohn Baldwin if (inp->inp_socket == NULL) { 707*9e14430dSJohn Baldwin INP_WUNLOCK(inp); 708*9e14430dSJohn Baldwin return (ECONNRESET); 709*9e14430dSJohn Baldwin } 710*9e14430dSJohn Baldwin tp = intotcpcb(inp); 711*9e14430dSJohn Baldwin if (tp->tod == NULL) { 712*9e14430dSJohn Baldwin INP_WUNLOCK(inp); 713*9e14430dSJohn Baldwin return (EOPNOTSUPP); 714*9e14430dSJohn Baldwin } 715*9e14430dSJohn Baldwin 716*9e14430dSJohn Baldwin error = tcp_offload_alloc_tls_session(tp, tls); 717*9e14430dSJohn Baldwin INP_WUNLOCK(inp); 718*9e14430dSJohn Baldwin if (error == 0) { 719*9e14430dSJohn Baldwin tls->mode = TCP_TLS_MODE_TOE; 720*9e14430dSJohn Baldwin switch (tls->params.cipher_algorithm) { 721*9e14430dSJohn Baldwin case CRYPTO_AES_CBC: 722*9e14430dSJohn Baldwin counter_u64_add(ktls_toe_cbc, 1); 723*9e14430dSJohn Baldwin break; 724*9e14430dSJohn Baldwin case CRYPTO_AES_NIST_GCM_16: 725*9e14430dSJohn Baldwin counter_u64_add(ktls_toe_gcm, 1); 726*9e14430dSJohn Baldwin break; 727*9e14430dSJohn Baldwin } 728*9e14430dSJohn Baldwin } 729*9e14430dSJohn Baldwin return (error); 730*9e14430dSJohn Baldwin } 731*9e14430dSJohn Baldwin #endif 732*9e14430dSJohn Baldwin 733b2e60773SJohn Baldwin /* 734b2e60773SJohn Baldwin * Common code used when first enabling ifnet TLS on a connection or 735b2e60773SJohn Baldwin * when allocating a new ifnet TLS session due to a routing change. 736b2e60773SJohn Baldwin * This function allocates a new TLS send tag on whatever interface 737b2e60773SJohn Baldwin * the connection is currently routed over. 738b2e60773SJohn Baldwin */ 739b2e60773SJohn Baldwin static int 740b2e60773SJohn Baldwin ktls_alloc_snd_tag(struct inpcb *inp, struct ktls_session *tls, bool force, 741b2e60773SJohn Baldwin struct m_snd_tag **mstp) 742b2e60773SJohn Baldwin { 743b2e60773SJohn Baldwin union if_snd_tag_alloc_params params; 744b2e60773SJohn Baldwin struct ifnet *ifp; 745b2e60773SJohn Baldwin struct rtentry *rt; 746b2e60773SJohn Baldwin struct tcpcb *tp; 747b2e60773SJohn Baldwin int error; 748b2e60773SJohn Baldwin 749b2e60773SJohn Baldwin INP_RLOCK(inp); 750b2e60773SJohn Baldwin if (inp->inp_flags2 & INP_FREED) { 751b2e60773SJohn Baldwin INP_RUNLOCK(inp); 752b2e60773SJohn Baldwin return (ECONNRESET); 753b2e60773SJohn Baldwin } 754b2e60773SJohn Baldwin if (inp->inp_flags & (INP_TIMEWAIT | INP_DROPPED)) { 755b2e60773SJohn Baldwin INP_RUNLOCK(inp); 756b2e60773SJohn Baldwin return (ECONNRESET); 757b2e60773SJohn Baldwin } 758b2e60773SJohn Baldwin if (inp->inp_socket == NULL) { 759b2e60773SJohn Baldwin INP_RUNLOCK(inp); 760b2e60773SJohn Baldwin return (ECONNRESET); 761b2e60773SJohn Baldwin } 762b2e60773SJohn Baldwin tp = intotcpcb(inp); 763b2e60773SJohn Baldwin 764b2e60773SJohn Baldwin /* 765b2e60773SJohn Baldwin * Check administrative controls on ifnet TLS to determine if 766b2e60773SJohn Baldwin * ifnet TLS should be denied. 767b2e60773SJohn Baldwin * 768b2e60773SJohn Baldwin * - Always permit 'force' requests. 769b2e60773SJohn Baldwin * - ktls_ifnet_permitted == 0: always deny. 770b2e60773SJohn Baldwin */ 771b2e60773SJohn Baldwin if (!force && ktls_ifnet_permitted == 0) { 772b2e60773SJohn Baldwin INP_RUNLOCK(inp); 773b2e60773SJohn Baldwin return (ENXIO); 774b2e60773SJohn Baldwin } 775b2e60773SJohn Baldwin 776b2e60773SJohn Baldwin /* 777b2e60773SJohn Baldwin * XXX: Use the cached route in the inpcb to find the 778b2e60773SJohn Baldwin * interface. This should perhaps instead use 779b2e60773SJohn Baldwin * rtalloc1_fib(dst, 0, 0, fibnum). Since KTLS is only 780b2e60773SJohn Baldwin * enabled after a connection has completed key negotiation in 781b2e60773SJohn Baldwin * userland, the cached route will be present in practice. 782b2e60773SJohn Baldwin */ 783b2e60773SJohn Baldwin rt = inp->inp_route.ro_rt; 784b2e60773SJohn Baldwin if (rt == NULL || rt->rt_ifp == NULL) { 785b2e60773SJohn Baldwin INP_RUNLOCK(inp); 786b2e60773SJohn Baldwin return (ENXIO); 787b2e60773SJohn Baldwin } 788b2e60773SJohn Baldwin ifp = rt->rt_ifp; 789b2e60773SJohn Baldwin if_ref(ifp); 790b2e60773SJohn Baldwin 791b2e60773SJohn Baldwin params.hdr.type = IF_SND_TAG_TYPE_TLS; 792b2e60773SJohn Baldwin params.hdr.flowid = inp->inp_flowid; 793b2e60773SJohn Baldwin params.hdr.flowtype = inp->inp_flowtype; 794b2e60773SJohn Baldwin params.tls.inp = inp; 795b2e60773SJohn Baldwin params.tls.tls = tls; 796b2e60773SJohn Baldwin INP_RUNLOCK(inp); 797b2e60773SJohn Baldwin 798b2e60773SJohn Baldwin if (ifp->if_snd_tag_alloc == NULL) { 799b2e60773SJohn Baldwin error = EOPNOTSUPP; 800b2e60773SJohn Baldwin goto out; 801b2e60773SJohn Baldwin } 802b2e60773SJohn Baldwin if ((ifp->if_capenable & IFCAP_NOMAP) == 0) { 803b2e60773SJohn Baldwin error = EOPNOTSUPP; 804b2e60773SJohn Baldwin goto out; 805b2e60773SJohn Baldwin } 806b2e60773SJohn Baldwin if (inp->inp_vflag & INP_IPV6) { 807b2e60773SJohn Baldwin if ((ifp->if_capenable & IFCAP_TXTLS6) == 0) { 808b2e60773SJohn Baldwin error = EOPNOTSUPP; 809b2e60773SJohn Baldwin goto out; 810b2e60773SJohn Baldwin } 811b2e60773SJohn Baldwin } else { 812b2e60773SJohn Baldwin if ((ifp->if_capenable & IFCAP_TXTLS4) == 0) { 813b2e60773SJohn Baldwin error = EOPNOTSUPP; 814b2e60773SJohn Baldwin goto out; 815b2e60773SJohn Baldwin } 816b2e60773SJohn Baldwin } 817b2e60773SJohn Baldwin error = ifp->if_snd_tag_alloc(ifp, ¶ms, mstp); 818b2e60773SJohn Baldwin out: 819b2e60773SJohn Baldwin if_rele(ifp); 820b2e60773SJohn Baldwin return (error); 821b2e60773SJohn Baldwin } 822b2e60773SJohn Baldwin 823b2e60773SJohn Baldwin static int 824b2e60773SJohn Baldwin ktls_try_ifnet(struct socket *so, struct ktls_session *tls, bool force) 825b2e60773SJohn Baldwin { 826b2e60773SJohn Baldwin struct m_snd_tag *mst; 827b2e60773SJohn Baldwin int error; 828b2e60773SJohn Baldwin 829b2e60773SJohn Baldwin error = ktls_alloc_snd_tag(so->so_pcb, tls, force, &mst); 830b2e60773SJohn Baldwin if (error == 0) { 831*9e14430dSJohn Baldwin tls->mode = TCP_TLS_MODE_IFNET; 832b2e60773SJohn Baldwin tls->snd_tag = mst; 833b2e60773SJohn Baldwin switch (tls->params.cipher_algorithm) { 834b2e60773SJohn Baldwin case CRYPTO_AES_CBC: 835b2e60773SJohn Baldwin counter_u64_add(ktls_ifnet_cbc, 1); 836b2e60773SJohn Baldwin break; 837b2e60773SJohn Baldwin case CRYPTO_AES_NIST_GCM_16: 838b2e60773SJohn Baldwin counter_u64_add(ktls_ifnet_gcm, 1); 839b2e60773SJohn Baldwin break; 840b2e60773SJohn Baldwin } 841b2e60773SJohn Baldwin } 842b2e60773SJohn Baldwin return (error); 843b2e60773SJohn Baldwin } 844b2e60773SJohn Baldwin 845b2e60773SJohn Baldwin static int 846b2e60773SJohn Baldwin ktls_try_sw(struct socket *so, struct ktls_session *tls) 847b2e60773SJohn Baldwin { 848b2e60773SJohn Baldwin struct rm_priotracker prio; 849b2e60773SJohn Baldwin struct ktls_crypto_backend *be; 850b2e60773SJohn Baldwin 851b2e60773SJohn Baldwin /* 852b2e60773SJohn Baldwin * Choose the best software crypto backend. Backends are 853b2e60773SJohn Baldwin * stored in sorted priority order (larget value == most 854b2e60773SJohn Baldwin * important at the head of the list), so this just stops on 855b2e60773SJohn Baldwin * the first backend that claims the session by returning 856b2e60773SJohn Baldwin * success. 857b2e60773SJohn Baldwin */ 858b2e60773SJohn Baldwin if (ktls_allow_unload) 859b2e60773SJohn Baldwin rm_rlock(&ktls_backends_lock, &prio); 860b2e60773SJohn Baldwin LIST_FOREACH(be, &ktls_backends, next) { 861b2e60773SJohn Baldwin if (be->try(so, tls) == 0) 862b2e60773SJohn Baldwin break; 863b2e60773SJohn Baldwin KASSERT(tls->cipher == NULL, 864b2e60773SJohn Baldwin ("ktls backend leaked a cipher pointer")); 865b2e60773SJohn Baldwin } 866b2e60773SJohn Baldwin if (be != NULL) { 867b2e60773SJohn Baldwin if (ktls_allow_unload) 868b2e60773SJohn Baldwin be->use_count++; 869b2e60773SJohn Baldwin tls->be = be; 870b2e60773SJohn Baldwin } 871b2e60773SJohn Baldwin if (ktls_allow_unload) 872b2e60773SJohn Baldwin rm_runlock(&ktls_backends_lock, &prio); 873b2e60773SJohn Baldwin if (be == NULL) 874b2e60773SJohn Baldwin return (EOPNOTSUPP); 875*9e14430dSJohn Baldwin tls->mode = TCP_TLS_MODE_SW; 876b2e60773SJohn Baldwin switch (tls->params.cipher_algorithm) { 877b2e60773SJohn Baldwin case CRYPTO_AES_CBC: 878b2e60773SJohn Baldwin counter_u64_add(ktls_sw_cbc, 1); 879b2e60773SJohn Baldwin break; 880b2e60773SJohn Baldwin case CRYPTO_AES_NIST_GCM_16: 881b2e60773SJohn Baldwin counter_u64_add(ktls_sw_gcm, 1); 882b2e60773SJohn Baldwin break; 883b2e60773SJohn Baldwin } 884b2e60773SJohn Baldwin return (0); 885b2e60773SJohn Baldwin } 886b2e60773SJohn Baldwin 887b2e60773SJohn Baldwin int 888b2e60773SJohn Baldwin ktls_enable_tx(struct socket *so, struct tls_enable *en) 889b2e60773SJohn Baldwin { 890b2e60773SJohn Baldwin struct ktls_session *tls; 891b2e60773SJohn Baldwin int error; 892b2e60773SJohn Baldwin 893b2e60773SJohn Baldwin if (!ktls_offload_enable) 894b2e60773SJohn Baldwin return (ENOTSUP); 895b2e60773SJohn Baldwin 896b2e60773SJohn Baldwin counter_u64_add(ktls_offload_enable_calls, 1); 897b2e60773SJohn Baldwin 898b2e60773SJohn Baldwin /* 899b2e60773SJohn Baldwin * This should always be true since only the TCP socket option 900b2e60773SJohn Baldwin * invokes this function. 901b2e60773SJohn Baldwin */ 902b2e60773SJohn Baldwin if (so->so_proto->pr_protocol != IPPROTO_TCP) 903b2e60773SJohn Baldwin return (EINVAL); 904b2e60773SJohn Baldwin 905b2e60773SJohn Baldwin /* 906b2e60773SJohn Baldwin * XXX: Don't overwrite existing sessions. We should permit 907b2e60773SJohn Baldwin * this to support rekeying in the future. 908b2e60773SJohn Baldwin */ 909b2e60773SJohn Baldwin if (so->so_snd.sb_tls_info != NULL) 910b2e60773SJohn Baldwin return (EALREADY); 911b2e60773SJohn Baldwin 912b2e60773SJohn Baldwin if (en->cipher_algorithm == CRYPTO_AES_CBC && !ktls_cbc_enable) 913b2e60773SJohn Baldwin return (ENOTSUP); 914b2e60773SJohn Baldwin 915b2e60773SJohn Baldwin /* TLS requires ext pgs */ 916b2e60773SJohn Baldwin if (mb_use_ext_pgs == 0) 917b2e60773SJohn Baldwin return (ENXIO); 918b2e60773SJohn Baldwin 919b2e60773SJohn Baldwin error = ktls_create_session(so, en, &tls); 920b2e60773SJohn Baldwin if (error) 921b2e60773SJohn Baldwin return (error); 922b2e60773SJohn Baldwin 923*9e14430dSJohn Baldwin /* Prefer TOE -> ifnet TLS -> software TLS. */ 924*9e14430dSJohn Baldwin #ifdef TCP_OFFLOAD 925*9e14430dSJohn Baldwin error = ktls_try_toe(so, tls); 926*9e14430dSJohn Baldwin if (error) 927*9e14430dSJohn Baldwin #endif 928b2e60773SJohn Baldwin error = ktls_try_ifnet(so, tls, false); 929b2e60773SJohn Baldwin if (error) 930b2e60773SJohn Baldwin error = ktls_try_sw(so, tls); 931b2e60773SJohn Baldwin 932b2e60773SJohn Baldwin if (error) { 933b2e60773SJohn Baldwin ktls_cleanup(tls); 934b2e60773SJohn Baldwin return (error); 935b2e60773SJohn Baldwin } 936b2e60773SJohn Baldwin 937b2e60773SJohn Baldwin error = sblock(&so->so_snd, SBL_WAIT); 938b2e60773SJohn Baldwin if (error) { 939b2e60773SJohn Baldwin ktls_cleanup(tls); 940b2e60773SJohn Baldwin return (error); 941b2e60773SJohn Baldwin } 942b2e60773SJohn Baldwin 943b2e60773SJohn Baldwin SOCKBUF_LOCK(&so->so_snd); 944b2e60773SJohn Baldwin so->so_snd.sb_tls_info = tls; 945*9e14430dSJohn Baldwin if (tls->mode != TCP_TLS_MODE_SW) 946b2e60773SJohn Baldwin so->so_snd.sb_flags |= SB_TLS_IFNET; 947b2e60773SJohn Baldwin SOCKBUF_UNLOCK(&so->so_snd); 948b2e60773SJohn Baldwin sbunlock(&so->so_snd); 949b2e60773SJohn Baldwin 950b2e60773SJohn Baldwin counter_u64_add(ktls_offload_total, 1); 951b2e60773SJohn Baldwin 952b2e60773SJohn Baldwin return (0); 953b2e60773SJohn Baldwin } 954b2e60773SJohn Baldwin 955b2e60773SJohn Baldwin int 956b2e60773SJohn Baldwin ktls_get_tx_mode(struct socket *so) 957b2e60773SJohn Baldwin { 958b2e60773SJohn Baldwin struct ktls_session *tls; 959b2e60773SJohn Baldwin struct inpcb *inp; 960b2e60773SJohn Baldwin int mode; 961b2e60773SJohn Baldwin 962b2e60773SJohn Baldwin inp = so->so_pcb; 963b2e60773SJohn Baldwin INP_WLOCK_ASSERT(inp); 964b2e60773SJohn Baldwin SOCKBUF_LOCK(&so->so_snd); 965b2e60773SJohn Baldwin tls = so->so_snd.sb_tls_info; 966b2e60773SJohn Baldwin if (tls == NULL) 967b2e60773SJohn Baldwin mode = TCP_TLS_MODE_NONE; 968b2e60773SJohn Baldwin else 969*9e14430dSJohn Baldwin mode = tls->mode; 970b2e60773SJohn Baldwin SOCKBUF_UNLOCK(&so->so_snd); 971b2e60773SJohn Baldwin return (mode); 972b2e60773SJohn Baldwin } 973b2e60773SJohn Baldwin 974b2e60773SJohn Baldwin /* 975b2e60773SJohn Baldwin * Switch between SW and ifnet TLS sessions as requested. 976b2e60773SJohn Baldwin */ 977b2e60773SJohn Baldwin int 978b2e60773SJohn Baldwin ktls_set_tx_mode(struct socket *so, int mode) 979b2e60773SJohn Baldwin { 980b2e60773SJohn Baldwin struct ktls_session *tls, *tls_new; 981b2e60773SJohn Baldwin struct inpcb *inp; 982b2e60773SJohn Baldwin int error; 983b2e60773SJohn Baldwin 984*9e14430dSJohn Baldwin switch (mode) { 985*9e14430dSJohn Baldwin case TCP_TLS_MODE_SW: 986*9e14430dSJohn Baldwin case TCP_TLS_MODE_IFNET: 987*9e14430dSJohn Baldwin break; 988*9e14430dSJohn Baldwin default: 989*9e14430dSJohn Baldwin return (EINVAL); 990*9e14430dSJohn Baldwin } 991b2e60773SJohn Baldwin 992b2e60773SJohn Baldwin inp = so->so_pcb; 993b2e60773SJohn Baldwin INP_WLOCK_ASSERT(inp); 994b2e60773SJohn Baldwin SOCKBUF_LOCK(&so->so_snd); 995b2e60773SJohn Baldwin tls = so->so_snd.sb_tls_info; 996b2e60773SJohn Baldwin if (tls == NULL) { 997b2e60773SJohn Baldwin SOCKBUF_UNLOCK(&so->so_snd); 998b2e60773SJohn Baldwin return (0); 999b2e60773SJohn Baldwin } 1000b2e60773SJohn Baldwin 1001*9e14430dSJohn Baldwin if (tls->mode == mode) { 1002b2e60773SJohn Baldwin SOCKBUF_UNLOCK(&so->so_snd); 1003b2e60773SJohn Baldwin return (0); 1004b2e60773SJohn Baldwin } 1005b2e60773SJohn Baldwin 1006b2e60773SJohn Baldwin tls = ktls_hold(tls); 1007b2e60773SJohn Baldwin SOCKBUF_UNLOCK(&so->so_snd); 1008b2e60773SJohn Baldwin INP_WUNLOCK(inp); 1009b2e60773SJohn Baldwin 1010b2e60773SJohn Baldwin tls_new = ktls_clone_session(tls); 1011b2e60773SJohn Baldwin 1012b2e60773SJohn Baldwin if (mode == TCP_TLS_MODE_IFNET) 1013b2e60773SJohn Baldwin error = ktls_try_ifnet(so, tls_new, true); 1014b2e60773SJohn Baldwin else 1015b2e60773SJohn Baldwin error = ktls_try_sw(so, tls_new); 1016b2e60773SJohn Baldwin if (error) { 1017b2e60773SJohn Baldwin counter_u64_add(ktls_switch_failed, 1); 1018b2e60773SJohn Baldwin ktls_free(tls_new); 1019b2e60773SJohn Baldwin ktls_free(tls); 1020b2e60773SJohn Baldwin INP_WLOCK(inp); 1021b2e60773SJohn Baldwin return (error); 1022b2e60773SJohn Baldwin } 1023b2e60773SJohn Baldwin 1024b2e60773SJohn Baldwin error = sblock(&so->so_snd, SBL_WAIT); 1025b2e60773SJohn Baldwin if (error) { 1026b2e60773SJohn Baldwin counter_u64_add(ktls_switch_failed, 1); 1027b2e60773SJohn Baldwin ktls_free(tls_new); 1028b2e60773SJohn Baldwin ktls_free(tls); 1029b2e60773SJohn Baldwin INP_WLOCK(inp); 1030b2e60773SJohn Baldwin return (error); 1031b2e60773SJohn Baldwin } 1032b2e60773SJohn Baldwin 1033b2e60773SJohn Baldwin /* 1034b2e60773SJohn Baldwin * If we raced with another session change, keep the existing 1035b2e60773SJohn Baldwin * session. 1036b2e60773SJohn Baldwin */ 1037b2e60773SJohn Baldwin if (tls != so->so_snd.sb_tls_info) { 1038b2e60773SJohn Baldwin counter_u64_add(ktls_switch_failed, 1); 1039b2e60773SJohn Baldwin sbunlock(&so->so_snd); 1040b2e60773SJohn Baldwin ktls_free(tls_new); 1041b2e60773SJohn Baldwin ktls_free(tls); 1042b2e60773SJohn Baldwin INP_WLOCK(inp); 1043b2e60773SJohn Baldwin return (EBUSY); 1044b2e60773SJohn Baldwin } 1045b2e60773SJohn Baldwin 1046b2e60773SJohn Baldwin SOCKBUF_LOCK(&so->so_snd); 1047b2e60773SJohn Baldwin so->so_snd.sb_tls_info = tls_new; 1048*9e14430dSJohn Baldwin if (tls_new->mode != TCP_TLS_MODE_SW) 1049b2e60773SJohn Baldwin so->so_snd.sb_flags |= SB_TLS_IFNET; 1050b2e60773SJohn Baldwin SOCKBUF_UNLOCK(&so->so_snd); 1051b2e60773SJohn Baldwin sbunlock(&so->so_snd); 1052b2e60773SJohn Baldwin 1053b2e60773SJohn Baldwin /* 1054b2e60773SJohn Baldwin * Drop two references on 'tls'. The first is for the 1055b2e60773SJohn Baldwin * ktls_hold() above. The second drops the reference from the 1056b2e60773SJohn Baldwin * socket buffer. 1057b2e60773SJohn Baldwin */ 1058b2e60773SJohn Baldwin KASSERT(tls->refcount >= 2, ("too few references on old session")); 1059b2e60773SJohn Baldwin ktls_free(tls); 1060b2e60773SJohn Baldwin ktls_free(tls); 1061b2e60773SJohn Baldwin 1062b2e60773SJohn Baldwin if (mode == TCP_TLS_MODE_IFNET) 1063b2e60773SJohn Baldwin counter_u64_add(ktls_switch_to_ifnet, 1); 1064b2e60773SJohn Baldwin else 1065b2e60773SJohn Baldwin counter_u64_add(ktls_switch_to_sw, 1); 1066b2e60773SJohn Baldwin 1067b2e60773SJohn Baldwin INP_WLOCK(inp); 1068b2e60773SJohn Baldwin return (0); 1069b2e60773SJohn Baldwin } 1070b2e60773SJohn Baldwin 1071b2e60773SJohn Baldwin /* 1072b2e60773SJohn Baldwin * Try to allocate a new TLS send tag. This task is scheduled when 1073b2e60773SJohn Baldwin * ip_output detects a route change while trying to transmit a packet 1074b2e60773SJohn Baldwin * holding a TLS record. If a new tag is allocated, replace the tag 1075b2e60773SJohn Baldwin * in the TLS session. Subsequent packets on the connection will use 1076b2e60773SJohn Baldwin * the new tag. If a new tag cannot be allocated, drop the 1077b2e60773SJohn Baldwin * connection. 1078b2e60773SJohn Baldwin */ 1079b2e60773SJohn Baldwin static void 1080b2e60773SJohn Baldwin ktls_reset_send_tag(void *context, int pending) 1081b2e60773SJohn Baldwin { 1082b2e60773SJohn Baldwin struct epoch_tracker et; 1083b2e60773SJohn Baldwin struct ktls_session *tls; 1084b2e60773SJohn Baldwin struct m_snd_tag *old, *new; 1085b2e60773SJohn Baldwin struct inpcb *inp; 1086b2e60773SJohn Baldwin struct tcpcb *tp; 1087b2e60773SJohn Baldwin int error; 1088b2e60773SJohn Baldwin 1089b2e60773SJohn Baldwin MPASS(pending == 1); 1090b2e60773SJohn Baldwin 1091b2e60773SJohn Baldwin tls = context; 1092b2e60773SJohn Baldwin inp = tls->inp; 1093b2e60773SJohn Baldwin 1094b2e60773SJohn Baldwin /* 1095b2e60773SJohn Baldwin * Free the old tag first before allocating a new one. 1096b2e60773SJohn Baldwin * ip[6]_output_send() will treat a NULL send tag the same as 1097b2e60773SJohn Baldwin * an ifp mismatch and drop packets until a new tag is 1098b2e60773SJohn Baldwin * allocated. 1099b2e60773SJohn Baldwin * 1100b2e60773SJohn Baldwin * Write-lock the INP when changing tls->snd_tag since 1101b2e60773SJohn Baldwin * ip[6]_output_send() holds a read-lock when reading the 1102b2e60773SJohn Baldwin * pointer. 1103b2e60773SJohn Baldwin */ 1104b2e60773SJohn Baldwin INP_WLOCK(inp); 1105b2e60773SJohn Baldwin old = tls->snd_tag; 1106b2e60773SJohn Baldwin tls->snd_tag = NULL; 1107b2e60773SJohn Baldwin INP_WUNLOCK(inp); 1108b2e60773SJohn Baldwin if (old != NULL) 1109b2e60773SJohn Baldwin m_snd_tag_rele(old); 1110b2e60773SJohn Baldwin 1111b2e60773SJohn Baldwin error = ktls_alloc_snd_tag(inp, tls, true, &new); 1112b2e60773SJohn Baldwin 1113b2e60773SJohn Baldwin if (error == 0) { 1114b2e60773SJohn Baldwin INP_WLOCK(inp); 1115b2e60773SJohn Baldwin tls->snd_tag = new; 1116b2e60773SJohn Baldwin mtx_pool_lock(mtxpool_sleep, tls); 1117b2e60773SJohn Baldwin tls->reset_pending = false; 1118b2e60773SJohn Baldwin mtx_pool_unlock(mtxpool_sleep, tls); 1119b2e60773SJohn Baldwin if (!in_pcbrele_wlocked(inp)) 1120b2e60773SJohn Baldwin INP_WUNLOCK(inp); 1121b2e60773SJohn Baldwin 1122b2e60773SJohn Baldwin counter_u64_add(ktls_ifnet_reset, 1); 1123b2e60773SJohn Baldwin 1124b2e60773SJohn Baldwin /* 1125b2e60773SJohn Baldwin * XXX: Should we kick tcp_output explicitly now that 1126b2e60773SJohn Baldwin * the send tag is fixed or just rely on timers? 1127b2e60773SJohn Baldwin */ 1128b2e60773SJohn Baldwin } else { 1129b2e60773SJohn Baldwin INP_INFO_RLOCK_ET(&V_tcbinfo, et); 1130b2e60773SJohn Baldwin INP_WLOCK(inp); 1131b2e60773SJohn Baldwin if (!in_pcbrele_wlocked(inp)) { 1132b2e60773SJohn Baldwin if (!(inp->inp_flags & INP_TIMEWAIT) && 1133b2e60773SJohn Baldwin !(inp->inp_flags & INP_DROPPED)) { 1134b2e60773SJohn Baldwin tp = intotcpcb(inp); 1135b2e60773SJohn Baldwin tp = tcp_drop(tp, ECONNABORTED); 1136b2e60773SJohn Baldwin if (tp != NULL) 1137b2e60773SJohn Baldwin INP_WUNLOCK(inp); 1138b2e60773SJohn Baldwin counter_u64_add(ktls_ifnet_reset_dropped, 1); 1139b2e60773SJohn Baldwin } else 1140b2e60773SJohn Baldwin INP_WUNLOCK(inp); 1141b2e60773SJohn Baldwin } 1142b2e60773SJohn Baldwin INP_INFO_RUNLOCK_ET(&V_tcbinfo, et); 1143b2e60773SJohn Baldwin 1144b2e60773SJohn Baldwin counter_u64_add(ktls_ifnet_reset_failed, 1); 1145b2e60773SJohn Baldwin 1146b2e60773SJohn Baldwin /* 1147b2e60773SJohn Baldwin * Leave reset_pending true to avoid future tasks while 1148b2e60773SJohn Baldwin * the socket goes away. 1149b2e60773SJohn Baldwin */ 1150b2e60773SJohn Baldwin } 1151b2e60773SJohn Baldwin 1152b2e60773SJohn Baldwin ktls_free(tls); 1153b2e60773SJohn Baldwin } 1154b2e60773SJohn Baldwin 1155b2e60773SJohn Baldwin int 1156b2e60773SJohn Baldwin ktls_output_eagain(struct inpcb *inp, struct ktls_session *tls) 1157b2e60773SJohn Baldwin { 1158b2e60773SJohn Baldwin 1159b2e60773SJohn Baldwin if (inp == NULL) 1160b2e60773SJohn Baldwin return (ENOBUFS); 1161b2e60773SJohn Baldwin 1162b2e60773SJohn Baldwin INP_LOCK_ASSERT(inp); 1163b2e60773SJohn Baldwin 1164b2e60773SJohn Baldwin /* 1165b2e60773SJohn Baldwin * See if we should schedule a task to update the send tag for 1166b2e60773SJohn Baldwin * this session. 1167b2e60773SJohn Baldwin */ 1168b2e60773SJohn Baldwin mtx_pool_lock(mtxpool_sleep, tls); 1169b2e60773SJohn Baldwin if (!tls->reset_pending) { 1170b2e60773SJohn Baldwin (void) ktls_hold(tls); 1171b2e60773SJohn Baldwin in_pcbref(inp); 1172b2e60773SJohn Baldwin tls->inp = inp; 1173b2e60773SJohn Baldwin tls->reset_pending = true; 1174b2e60773SJohn Baldwin taskqueue_enqueue(taskqueue_thread, &tls->reset_tag_task); 1175b2e60773SJohn Baldwin } 1176b2e60773SJohn Baldwin mtx_pool_unlock(mtxpool_sleep, tls); 1177b2e60773SJohn Baldwin return (ENOBUFS); 1178b2e60773SJohn Baldwin } 1179b2e60773SJohn Baldwin #endif 1180b2e60773SJohn Baldwin 1181b2e60773SJohn Baldwin void 1182b2e60773SJohn Baldwin ktls_destroy(struct ktls_session *tls) 1183b2e60773SJohn Baldwin { 1184b2e60773SJohn Baldwin struct rm_priotracker prio; 1185b2e60773SJohn Baldwin 1186b2e60773SJohn Baldwin ktls_cleanup(tls); 1187b2e60773SJohn Baldwin if (tls->be != NULL && ktls_allow_unload) { 1188b2e60773SJohn Baldwin rm_rlock(&ktls_backends_lock, &prio); 1189b2e60773SJohn Baldwin tls->be->use_count--; 1190b2e60773SJohn Baldwin rm_runlock(&ktls_backends_lock, &prio); 1191b2e60773SJohn Baldwin } 1192b2e60773SJohn Baldwin uma_zfree(ktls_session_zone, tls); 1193b2e60773SJohn Baldwin } 1194b2e60773SJohn Baldwin 1195b2e60773SJohn Baldwin void 1196b2e60773SJohn Baldwin ktls_seq(struct sockbuf *sb, struct mbuf *m) 1197b2e60773SJohn Baldwin { 1198b2e60773SJohn Baldwin struct mbuf_ext_pgs *pgs; 1199b2e60773SJohn Baldwin struct tls_record_layer *tlshdr; 1200b2e60773SJohn Baldwin uint64_t seqno; 1201b2e60773SJohn Baldwin 1202b2e60773SJohn Baldwin for (; m != NULL; m = m->m_next) { 1203b2e60773SJohn Baldwin KASSERT((m->m_flags & M_NOMAP) != 0, 1204b2e60773SJohn Baldwin ("ktls_seq: mapped mbuf %p", m)); 1205b2e60773SJohn Baldwin 1206b2e60773SJohn Baldwin pgs = m->m_ext.ext_pgs; 1207b2e60773SJohn Baldwin pgs->seqno = sb->sb_tls_seqno; 1208b2e60773SJohn Baldwin 1209b2e60773SJohn Baldwin /* 1210b2e60773SJohn Baldwin * Store the sequence number in the TLS header as the 1211b2e60773SJohn Baldwin * explicit part of the IV for GCM. 1212b2e60773SJohn Baldwin */ 1213b2e60773SJohn Baldwin if (pgs->tls->params.cipher_algorithm == 1214b2e60773SJohn Baldwin CRYPTO_AES_NIST_GCM_16) { 1215b2e60773SJohn Baldwin tlshdr = (void *)pgs->hdr; 1216b2e60773SJohn Baldwin seqno = htobe64(pgs->seqno); 1217b2e60773SJohn Baldwin memcpy(tlshdr + 1, &seqno, sizeof(seqno)); 1218b2e60773SJohn Baldwin } 1219b2e60773SJohn Baldwin sb->sb_tls_seqno++; 1220b2e60773SJohn Baldwin } 1221b2e60773SJohn Baldwin } 1222b2e60773SJohn Baldwin 1223b2e60773SJohn Baldwin /* 1224b2e60773SJohn Baldwin * Add TLS framing (headers and trailers) to a chain of mbufs. Each 1225b2e60773SJohn Baldwin * mbuf in the chain must be an unmapped mbuf. The payload of the 1226b2e60773SJohn Baldwin * mbuf must be populated with the payload of each TLS record. 1227b2e60773SJohn Baldwin * 1228b2e60773SJohn Baldwin * The record_type argument specifies the TLS record type used when 1229b2e60773SJohn Baldwin * populating the TLS header. 1230b2e60773SJohn Baldwin * 1231b2e60773SJohn Baldwin * The enq_count argument on return is set to the number of pages of 1232b2e60773SJohn Baldwin * payload data for this entire chain that need to be encrypted via SW 1233b2e60773SJohn Baldwin * encryption. The returned value should be passed to ktls_enqueue 1234b2e60773SJohn Baldwin * when scheduling encryption of this chain of mbufs. 1235b2e60773SJohn Baldwin */ 1236b2e60773SJohn Baldwin int 1237b2e60773SJohn Baldwin ktls_frame(struct mbuf *top, struct ktls_session *tls, int *enq_cnt, 1238b2e60773SJohn Baldwin uint8_t record_type) 1239b2e60773SJohn Baldwin { 1240b2e60773SJohn Baldwin struct tls_record_layer *tlshdr; 1241b2e60773SJohn Baldwin struct mbuf *m; 1242b2e60773SJohn Baldwin struct mbuf_ext_pgs *pgs; 1243b2e60773SJohn Baldwin uint16_t tls_len; 1244b2e60773SJohn Baldwin int maxlen; 1245b2e60773SJohn Baldwin 1246b2e60773SJohn Baldwin maxlen = tls->params.max_frame_len; 1247b2e60773SJohn Baldwin *enq_cnt = 0; 1248b2e60773SJohn Baldwin for (m = top; m != NULL; m = m->m_next) { 1249b2e60773SJohn Baldwin /* 1250b2e60773SJohn Baldwin * All mbufs in the chain should be non-empty TLS 1251b2e60773SJohn Baldwin * records whose payload does not exceed the maximum 1252b2e60773SJohn Baldwin * frame length. 1253b2e60773SJohn Baldwin */ 1254b2e60773SJohn Baldwin if (m->m_len > maxlen || m->m_len == 0) 1255b2e60773SJohn Baldwin return (EINVAL); 1256b2e60773SJohn Baldwin tls_len = m->m_len; 1257b2e60773SJohn Baldwin 1258b2e60773SJohn Baldwin /* 1259b2e60773SJohn Baldwin * TLS frames require unmapped mbufs to store session 1260b2e60773SJohn Baldwin * info. 1261b2e60773SJohn Baldwin */ 1262b2e60773SJohn Baldwin KASSERT((m->m_flags & M_NOMAP) != 0, 1263b2e60773SJohn Baldwin ("ktls_frame: mapped mbuf %p (top = %p)\n", m, top)); 1264b2e60773SJohn Baldwin 1265b2e60773SJohn Baldwin pgs = m->m_ext.ext_pgs; 1266b2e60773SJohn Baldwin 1267b2e60773SJohn Baldwin /* Save a reference to the session. */ 1268b2e60773SJohn Baldwin pgs->tls = ktls_hold(tls); 1269b2e60773SJohn Baldwin 1270b2e60773SJohn Baldwin pgs->hdr_len = tls->params.tls_hlen; 1271b2e60773SJohn Baldwin pgs->trail_len = tls->params.tls_tlen; 1272b2e60773SJohn Baldwin if (tls->params.cipher_algorithm == CRYPTO_AES_CBC) { 1273b2e60773SJohn Baldwin int bs, delta; 1274b2e60773SJohn Baldwin 1275b2e60773SJohn Baldwin /* 1276b2e60773SJohn Baldwin * AES-CBC pads messages to a multiple of the 1277b2e60773SJohn Baldwin * block size. Note that the padding is 1278b2e60773SJohn Baldwin * applied after the digest and the encryption 1279b2e60773SJohn Baldwin * is done on the "plaintext || mac || padding". 1280b2e60773SJohn Baldwin * At least one byte of padding is always 1281b2e60773SJohn Baldwin * present. 1282b2e60773SJohn Baldwin * 1283b2e60773SJohn Baldwin * Compute the final trailer length assuming 1284b2e60773SJohn Baldwin * at most one block of padding. 1285b2e60773SJohn Baldwin * tls->params.sb_tls_tlen is the maximum 1286b2e60773SJohn Baldwin * possible trailer length (padding + digest). 1287b2e60773SJohn Baldwin * delta holds the number of excess padding 1288b2e60773SJohn Baldwin * bytes if the maximum were used. Those 1289b2e60773SJohn Baldwin * extra bytes are removed. 1290b2e60773SJohn Baldwin */ 1291b2e60773SJohn Baldwin bs = tls->params.tls_bs; 1292b2e60773SJohn Baldwin delta = (tls_len + tls->params.tls_tlen) & (bs - 1); 1293b2e60773SJohn Baldwin pgs->trail_len -= delta; 1294b2e60773SJohn Baldwin } 1295b2e60773SJohn Baldwin m->m_len += pgs->hdr_len + pgs->trail_len; 1296b2e60773SJohn Baldwin 1297b2e60773SJohn Baldwin /* Populate the TLS header. */ 1298b2e60773SJohn Baldwin tlshdr = (void *)pgs->hdr; 1299b2e60773SJohn Baldwin tlshdr->tls_vmajor = tls->params.tls_vmajor; 13006554362cSAndrew Gallatin 13016554362cSAndrew Gallatin /* 13026554362cSAndrew Gallatin * TLS 1.3 masquarades as TLS 1.2 with a record type 13036554362cSAndrew Gallatin * of TLS_RLTYPE_APP. 13046554362cSAndrew Gallatin */ 13056554362cSAndrew Gallatin if (tls->params.tls_vminor == TLS_MINOR_VER_THREE && 13066554362cSAndrew Gallatin tls->params.tls_vmajor == TLS_MAJOR_VER_ONE) { 13076554362cSAndrew Gallatin tlshdr->tls_vminor = TLS_MINOR_VER_TWO; 13086554362cSAndrew Gallatin tlshdr->tls_type = TLS_RLTYPE_APP; 13096554362cSAndrew Gallatin /* save the real record type for later */ 13106554362cSAndrew Gallatin pgs->record_type = record_type; 13116554362cSAndrew Gallatin } else { 1312b2e60773SJohn Baldwin tlshdr->tls_vminor = tls->params.tls_vminor; 1313b2e60773SJohn Baldwin tlshdr->tls_type = record_type; 13146554362cSAndrew Gallatin } 1315b2e60773SJohn Baldwin tlshdr->tls_length = htons(m->m_len - sizeof(*tlshdr)); 1316b2e60773SJohn Baldwin 1317b2e60773SJohn Baldwin /* 1318b2e60773SJohn Baldwin * For GCM, the sequence number is stored in the 1319b2e60773SJohn Baldwin * header by ktls_seq(). For CBC, a random nonce is 1320b2e60773SJohn Baldwin * inserted for TLS 1.1+. 1321b2e60773SJohn Baldwin */ 1322b2e60773SJohn Baldwin if (tls->params.cipher_algorithm == CRYPTO_AES_CBC && 1323b2e60773SJohn Baldwin tls->params.tls_vminor >= TLS_MINOR_VER_ONE) 1324b2e60773SJohn Baldwin arc4rand(tlshdr + 1, AES_BLOCK_LEN, 0); 1325b2e60773SJohn Baldwin 1326b2e60773SJohn Baldwin /* 1327b2e60773SJohn Baldwin * When using SW encryption, mark the mbuf not ready. 1328b2e60773SJohn Baldwin * It will be marked ready via sbready() after the 1329b2e60773SJohn Baldwin * record has been encrypted. 1330b2e60773SJohn Baldwin * 1331b2e60773SJohn Baldwin * When using ifnet TLS, unencrypted TLS records are 1332b2e60773SJohn Baldwin * sent down the stack to the NIC. 1333b2e60773SJohn Baldwin */ 1334*9e14430dSJohn Baldwin if (tls->mode == TCP_TLS_MODE_SW) { 1335b2e60773SJohn Baldwin m->m_flags |= M_NOTREADY; 1336b2e60773SJohn Baldwin pgs->nrdy = pgs->npgs; 1337b2e60773SJohn Baldwin *enq_cnt += pgs->npgs; 1338b2e60773SJohn Baldwin } 1339b2e60773SJohn Baldwin } 1340b2e60773SJohn Baldwin return (0); 1341b2e60773SJohn Baldwin } 1342b2e60773SJohn Baldwin 1343b2e60773SJohn Baldwin void 1344b2e60773SJohn Baldwin ktls_enqueue_to_free(struct mbuf_ext_pgs *pgs) 1345b2e60773SJohn Baldwin { 1346b2e60773SJohn Baldwin struct ktls_wq *wq; 1347b2e60773SJohn Baldwin bool running; 1348b2e60773SJohn Baldwin 1349b2e60773SJohn Baldwin /* Mark it for freeing. */ 1350b2e60773SJohn Baldwin pgs->mbuf = NULL; 1351b2e60773SJohn Baldwin wq = &ktls_wq[pgs->tls->wq_index]; 1352b2e60773SJohn Baldwin mtx_lock(&wq->mtx); 1353b2e60773SJohn Baldwin STAILQ_INSERT_TAIL(&wq->head, pgs, stailq); 1354b2e60773SJohn Baldwin running = wq->running; 1355b2e60773SJohn Baldwin mtx_unlock(&wq->mtx); 1356b2e60773SJohn Baldwin if (!running) 1357b2e60773SJohn Baldwin wakeup(wq); 1358b2e60773SJohn Baldwin } 1359b2e60773SJohn Baldwin 1360b2e60773SJohn Baldwin void 1361b2e60773SJohn Baldwin ktls_enqueue(struct mbuf *m, struct socket *so, int page_count) 1362b2e60773SJohn Baldwin { 1363b2e60773SJohn Baldwin struct mbuf_ext_pgs *pgs; 1364b2e60773SJohn Baldwin struct ktls_wq *wq; 1365b2e60773SJohn Baldwin bool running; 1366b2e60773SJohn Baldwin 1367b2e60773SJohn Baldwin KASSERT(((m->m_flags & (M_NOMAP | M_NOTREADY)) == 1368b2e60773SJohn Baldwin (M_NOMAP | M_NOTREADY)), 1369b2e60773SJohn Baldwin ("ktls_enqueue: %p not unready & nomap mbuf\n", m)); 1370b2e60773SJohn Baldwin KASSERT(page_count != 0, ("enqueueing TLS mbuf with zero page count")); 1371b2e60773SJohn Baldwin 1372b2e60773SJohn Baldwin pgs = m->m_ext.ext_pgs; 1373b2e60773SJohn Baldwin 1374*9e14430dSJohn Baldwin KASSERT(pgs->tls->mode == TCP_TLS_MODE_SW, ("!SW TLS mbuf")); 1375b2e60773SJohn Baldwin 1376b2e60773SJohn Baldwin pgs->enc_cnt = page_count; 1377b2e60773SJohn Baldwin pgs->mbuf = m; 1378b2e60773SJohn Baldwin 1379b2e60773SJohn Baldwin /* 1380b2e60773SJohn Baldwin * Save a pointer to the socket. The caller is responsible 1381b2e60773SJohn Baldwin * for taking an additional reference via soref(). 1382b2e60773SJohn Baldwin */ 1383b2e60773SJohn Baldwin pgs->so = so; 1384b2e60773SJohn Baldwin 1385b2e60773SJohn Baldwin wq = &ktls_wq[pgs->tls->wq_index]; 1386b2e60773SJohn Baldwin mtx_lock(&wq->mtx); 1387b2e60773SJohn Baldwin STAILQ_INSERT_TAIL(&wq->head, pgs, stailq); 1388b2e60773SJohn Baldwin running = wq->running; 1389b2e60773SJohn Baldwin mtx_unlock(&wq->mtx); 1390b2e60773SJohn Baldwin if (!running) 1391b2e60773SJohn Baldwin wakeup(wq); 1392b2e60773SJohn Baldwin counter_u64_add(ktls_cnt_on, 1); 1393b2e60773SJohn Baldwin } 1394b2e60773SJohn Baldwin 1395b2e60773SJohn Baldwin static __noinline void 1396b2e60773SJohn Baldwin ktls_encrypt(struct mbuf_ext_pgs *pgs) 1397b2e60773SJohn Baldwin { 1398b2e60773SJohn Baldwin struct ktls_session *tls; 1399b2e60773SJohn Baldwin struct socket *so; 1400b2e60773SJohn Baldwin struct mbuf *m, *top; 1401b2e60773SJohn Baldwin vm_paddr_t parray[1 + btoc(TLS_MAX_MSG_SIZE_V10_2)]; 1402b2e60773SJohn Baldwin struct iovec src_iov[1 + btoc(TLS_MAX_MSG_SIZE_V10_2)]; 1403b2e60773SJohn Baldwin struct iovec dst_iov[1 + btoc(TLS_MAX_MSG_SIZE_V10_2)]; 1404b2e60773SJohn Baldwin vm_page_t pg; 1405b2e60773SJohn Baldwin int error, i, len, npages, off, total_pages; 1406b2e60773SJohn Baldwin bool is_anon; 1407b2e60773SJohn Baldwin 1408b2e60773SJohn Baldwin so = pgs->so; 1409b2e60773SJohn Baldwin tls = pgs->tls; 1410b2e60773SJohn Baldwin top = pgs->mbuf; 1411b2e60773SJohn Baldwin KASSERT(tls != NULL, ("tls = NULL, top = %p, pgs = %p\n", top, pgs)); 1412b2e60773SJohn Baldwin KASSERT(so != NULL, ("so = NULL, top = %p, pgs = %p\n", top, pgs)); 1413b2e60773SJohn Baldwin #ifdef INVARIANTS 1414b2e60773SJohn Baldwin pgs->so = NULL; 1415b2e60773SJohn Baldwin pgs->mbuf = NULL; 1416b2e60773SJohn Baldwin #endif 1417b2e60773SJohn Baldwin total_pages = pgs->enc_cnt; 1418b2e60773SJohn Baldwin npages = 0; 1419b2e60773SJohn Baldwin 1420b2e60773SJohn Baldwin /* 1421b2e60773SJohn Baldwin * Encrypt the TLS records in the chain of mbufs starting with 1422b2e60773SJohn Baldwin * 'top'. 'total_pages' gives us a total count of pages and is 1423b2e60773SJohn Baldwin * used to know when we have finished encrypting the TLS 1424b2e60773SJohn Baldwin * records originally queued with 'top'. 1425b2e60773SJohn Baldwin * 1426b2e60773SJohn Baldwin * NB: These mbufs are queued in the socket buffer and 1427b2e60773SJohn Baldwin * 'm_next' is traversing the mbufs in the socket buffer. The 1428b2e60773SJohn Baldwin * socket buffer lock is not held while traversing this chain. 1429b2e60773SJohn Baldwin * Since the mbufs are all marked M_NOTREADY their 'm_next' 1430b2e60773SJohn Baldwin * pointers should be stable. However, the 'm_next' of the 1431b2e60773SJohn Baldwin * last mbuf encrypted is not necessarily NULL. It can point 1432b2e60773SJohn Baldwin * to other mbufs appended while 'top' was on the TLS work 1433b2e60773SJohn Baldwin * queue. 1434b2e60773SJohn Baldwin * 1435b2e60773SJohn Baldwin * Each mbuf holds an entire TLS record. 1436b2e60773SJohn Baldwin */ 1437b2e60773SJohn Baldwin error = 0; 1438b2e60773SJohn Baldwin for (m = top; npages != total_pages; m = m->m_next) { 1439b2e60773SJohn Baldwin pgs = m->m_ext.ext_pgs; 1440b2e60773SJohn Baldwin 1441b2e60773SJohn Baldwin KASSERT(pgs->tls == tls, 1442b2e60773SJohn Baldwin ("different TLS sessions in a single mbuf chain: %p vs %p", 1443b2e60773SJohn Baldwin tls, pgs->tls)); 1444b2e60773SJohn Baldwin KASSERT((m->m_flags & (M_NOMAP | M_NOTREADY)) == 1445b2e60773SJohn Baldwin (M_NOMAP | M_NOTREADY), 1446b2e60773SJohn Baldwin ("%p not unready & nomap mbuf (top = %p)\n", m, top)); 1447b2e60773SJohn Baldwin KASSERT(npages + pgs->npgs <= total_pages, 1448b2e60773SJohn Baldwin ("page count mismatch: top %p, total_pages %d, m %p", top, 1449b2e60773SJohn Baldwin total_pages, m)); 1450b2e60773SJohn Baldwin 1451b2e60773SJohn Baldwin /* 1452b2e60773SJohn Baldwin * Generate source and destination ivoecs to pass to 1453b2e60773SJohn Baldwin * the SW encryption backend. For writable mbufs, the 1454b2e60773SJohn Baldwin * destination iovec is a copy of the source and 1455b2e60773SJohn Baldwin * encryption is done in place. For file-backed mbufs 1456b2e60773SJohn Baldwin * (from sendfile), anonymous wired pages are 1457b2e60773SJohn Baldwin * allocated and assigned to the destination iovec. 1458b2e60773SJohn Baldwin */ 1459b2dba663SAndrew Gallatin is_anon = (pgs->flags & MBUF_PEXT_FLAG_ANON) != 0; 1460b2e60773SJohn Baldwin 1461b2e60773SJohn Baldwin off = pgs->first_pg_off; 1462b2e60773SJohn Baldwin for (i = 0; i < pgs->npgs; i++, off = 0) { 1463b2e60773SJohn Baldwin len = mbuf_ext_pg_len(pgs, i, off); 1464b2e60773SJohn Baldwin src_iov[i].iov_len = len; 1465b2e60773SJohn Baldwin src_iov[i].iov_base = 1466b2e60773SJohn Baldwin (char *)(void *)PHYS_TO_DMAP(pgs->pa[i]) + off; 1467b2e60773SJohn Baldwin 1468b2e60773SJohn Baldwin if (is_anon) { 1469b2e60773SJohn Baldwin dst_iov[i].iov_base = src_iov[i].iov_base; 1470b2e60773SJohn Baldwin dst_iov[i].iov_len = src_iov[i].iov_len; 1471b2e60773SJohn Baldwin continue; 1472b2e60773SJohn Baldwin } 1473b2e60773SJohn Baldwin retry_page: 1474b2e60773SJohn Baldwin pg = vm_page_alloc(NULL, 0, VM_ALLOC_NORMAL | 1475b2e60773SJohn Baldwin VM_ALLOC_NOOBJ | VM_ALLOC_NODUMP | VM_ALLOC_WIRED); 1476b2e60773SJohn Baldwin if (pg == NULL) { 1477b2e60773SJohn Baldwin vm_wait(NULL); 1478b2e60773SJohn Baldwin goto retry_page; 1479b2e60773SJohn Baldwin } 1480b2e60773SJohn Baldwin parray[i] = VM_PAGE_TO_PHYS(pg); 1481b2e60773SJohn Baldwin dst_iov[i].iov_base = 1482b2e60773SJohn Baldwin (char *)(void *)PHYS_TO_DMAP(parray[i]) + off; 1483b2e60773SJohn Baldwin dst_iov[i].iov_len = len; 1484b2e60773SJohn Baldwin } 1485b2e60773SJohn Baldwin 1486b2e60773SJohn Baldwin npages += i; 1487b2e60773SJohn Baldwin 1488b2e60773SJohn Baldwin error = (*tls->sw_encrypt)(tls, 1489b2e60773SJohn Baldwin (const struct tls_record_layer *)pgs->hdr, 14906554362cSAndrew Gallatin pgs->trail, src_iov, dst_iov, i, pgs->seqno, 14916554362cSAndrew Gallatin pgs->record_type); 1492b2e60773SJohn Baldwin if (error) { 1493b2e60773SJohn Baldwin counter_u64_add(ktls_offload_failed_crypto, 1); 1494b2e60773SJohn Baldwin break; 1495b2e60773SJohn Baldwin } 1496b2e60773SJohn Baldwin 1497b2e60773SJohn Baldwin /* 1498b2e60773SJohn Baldwin * For file-backed mbufs, release the file-backed 1499b2e60773SJohn Baldwin * pages and replace them in the ext_pgs array with 1500b2e60773SJohn Baldwin * the anonymous wired pages allocated above. 1501b2e60773SJohn Baldwin */ 1502b2e60773SJohn Baldwin if (!is_anon) { 1503b2e60773SJohn Baldwin /* Free the old pages. */ 1504b2e60773SJohn Baldwin m->m_ext.ext_free(m); 1505b2e60773SJohn Baldwin 1506b2e60773SJohn Baldwin /* Replace them with the new pages. */ 1507b2e60773SJohn Baldwin for (i = 0; i < pgs->npgs; i++) 1508b2e60773SJohn Baldwin pgs->pa[i] = parray[i]; 1509b2e60773SJohn Baldwin 1510b2e60773SJohn Baldwin /* Use the basic free routine. */ 1511b2e60773SJohn Baldwin m->m_ext.ext_free = mb_free_mext_pgs; 1512b2dba663SAndrew Gallatin 1513b2dba663SAndrew Gallatin /* Pages are now writable. */ 1514b2dba663SAndrew Gallatin pgs->flags |= MBUF_PEXT_FLAG_ANON; 1515b2e60773SJohn Baldwin } 1516b2e60773SJohn Baldwin 1517b2e60773SJohn Baldwin /* 1518b2e60773SJohn Baldwin * Drop a reference to the session now that it is no 1519b2e60773SJohn Baldwin * longer needed. Existing code depends on encrypted 1520b2e60773SJohn Baldwin * records having no associated session vs 1521b2e60773SJohn Baldwin * yet-to-be-encrypted records having an associated 1522b2e60773SJohn Baldwin * session. 1523b2e60773SJohn Baldwin */ 1524b2e60773SJohn Baldwin pgs->tls = NULL; 1525b2e60773SJohn Baldwin ktls_free(tls); 1526b2e60773SJohn Baldwin } 1527b2e60773SJohn Baldwin 1528b2e60773SJohn Baldwin CURVNET_SET(so->so_vnet); 1529b2e60773SJohn Baldwin if (error == 0) { 1530b2e60773SJohn Baldwin (void)(*so->so_proto->pr_usrreqs->pru_ready)(so, top, npages); 1531b2e60773SJohn Baldwin } else { 1532b2e60773SJohn Baldwin so->so_proto->pr_usrreqs->pru_abort(so); 1533b2e60773SJohn Baldwin so->so_error = EIO; 1534b2e60773SJohn Baldwin mb_free_notready(top, total_pages); 1535b2e60773SJohn Baldwin } 1536b2e60773SJohn Baldwin 1537b2e60773SJohn Baldwin SOCK_LOCK(so); 1538b2e60773SJohn Baldwin sorele(so); 1539b2e60773SJohn Baldwin CURVNET_RESTORE(); 1540b2e60773SJohn Baldwin } 1541b2e60773SJohn Baldwin 1542b2e60773SJohn Baldwin static void 1543b2e60773SJohn Baldwin ktls_work_thread(void *ctx) 1544b2e60773SJohn Baldwin { 1545b2e60773SJohn Baldwin struct ktls_wq *wq = ctx; 1546b2e60773SJohn Baldwin struct mbuf_ext_pgs *p, *n; 1547b2e60773SJohn Baldwin struct ktls_session *tls; 1548b2e60773SJohn Baldwin STAILQ_HEAD(, mbuf_ext_pgs) local_head; 1549b2e60773SJohn Baldwin 1550b2e60773SJohn Baldwin #if defined(__aarch64__) || defined(__amd64__) || defined(__i386__) 1551b2e60773SJohn Baldwin fpu_kern_thread(0); 1552b2e60773SJohn Baldwin #endif 1553b2e60773SJohn Baldwin for (;;) { 1554b2e60773SJohn Baldwin mtx_lock(&wq->mtx); 1555b2e60773SJohn Baldwin while (STAILQ_EMPTY(&wq->head)) { 1556b2e60773SJohn Baldwin wq->running = false; 1557b2e60773SJohn Baldwin mtx_sleep(wq, &wq->mtx, 0, "-", 0); 1558b2e60773SJohn Baldwin wq->running = true; 1559b2e60773SJohn Baldwin } 1560b2e60773SJohn Baldwin 1561b2e60773SJohn Baldwin STAILQ_INIT(&local_head); 1562b2e60773SJohn Baldwin STAILQ_CONCAT(&local_head, &wq->head); 1563b2e60773SJohn Baldwin mtx_unlock(&wq->mtx); 1564b2e60773SJohn Baldwin 1565b2e60773SJohn Baldwin STAILQ_FOREACH_SAFE(p, &local_head, stailq, n) { 1566b2e60773SJohn Baldwin if (p->mbuf != NULL) { 1567b2e60773SJohn Baldwin ktls_encrypt(p); 1568b2e60773SJohn Baldwin counter_u64_add(ktls_cnt_on, -1); 1569b2e60773SJohn Baldwin } else { 1570b2e60773SJohn Baldwin tls = p->tls; 1571b2e60773SJohn Baldwin ktls_free(tls); 1572b2e60773SJohn Baldwin uma_zfree(zone_extpgs, p); 1573b2e60773SJohn Baldwin } 1574b2e60773SJohn Baldwin } 1575b2e60773SJohn Baldwin } 1576b2e60773SJohn Baldwin } 1577